Tait TEL0040 Base Station Transmitter User Manual Cct Description Part List

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Date Submitted	2000-08-30 00:00:00
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Document Title	Cct Description Part List

M830P-00
T830 Series II Paging
Base Station Equipment
148-174MHz
Initial Adjustment Manual
July 2000
M830P-00-1A0
Copyright TEL
01/07/00
2
M830P-00
Canada
Taiwan
Tait Mobile Radio Inc.
Unit 5, 158 Anderson Avenue
Markham
Ontario L6E1A9
Canada
Phone: 1 905 472-1100
Toll Free: 1 800 890-8248
Fax: 1 905 472-5300
Tait Mobile (Taiwan) Ltd
1104, No. 142 Chung Hsiao E. Rd
Sec. 4
Taipei
Taiwan
Phone: 886 2 2731-1290
Fax: 886 2 2711-6351
Thailand
T800
T800
Head Office
New Zealand
Tait Electronics Ltd
558 Wairakei Road
P.O. Box 1645
Christchurch
New Zealand
Phone: 64 3 358-3399
Fax: 64 3 358-3636
Radio Systems Division
535 Wairakei Road
P.O. Box 1645
Christchurch
New Zealand
Phone: 64 3 358-3399
Fax: 64 3 358-2825
Australia
Tait Electronics (Aust) Pty Ltd
186 Granite Street
Geebung
Queensland 4034
P.O. Box 679
Virginia
Queensland 4014
Australia
Phone: 61 7 3865-7799
Toll Free: 1800 077-112
Fax: 61 7 3865-7990
France
Tait France Sarl
2 Avenue de la Cristallerie
92 316 Sèvres, Cedex
France
Phone: 33 1 41 14-05-50
Fax: 33 1 41 14-05-55
Germany
Tait Mobilfunk GmbH
Willstätterstraße 50
D-90449 Nürnberg 60
Germany
Phone: 49 911 96 746-0
Fax: 49 911 96 746-79
Hong Kong
Tait Mobile Radio (HK) Ltd
Unit 2216, North Tower
Concordia Plaza
1, Science Museum Road
Tsim Sha Tsui East
Kowloon
Phone: 852 2369-3040
Fax: 852 2369-3009
New Zealand
Tait Communications Ltd
Unit 4, 75 Blenheim Road
P.O. Box 1185
Christchurch
Phone: 64 3 348-3301
Fax: 64 3 343-0558
Tait Mobile Radio Ltd
14/1 Suwan Tower
Third Floor
Soi Saladaeng 1
North Sathorn Road
Bangrak
Bangkok 10500
Thailand
Phone: 662 267-6290
Fax: 662 267-6293
United Kingdom
Tait Europe Ltd
Ermine Business Park
Ermine Road
Huntingdon
Cambridgeshire PE18 6YA
United Kingdom
Phone: 44 1480-52255
Fax: 44 1480-411996
USA
Tait Electronics (USA) Inc.
9434 Old Katy Road
Suite 110
Houston
Texas 77055
USA
Phone: 1 713 984-8684
Toll Free: 1 800 222-1255
Fax: 1 713 468-6944
Internet
http://www.taitworld.com
Singapore
Beijing
Tait Mobile Radio (HK) Ltd
Beijing Representative Office
Room 812, Tower A
Beijing Bright China
Chang An Building
No. 7 Jianguomennei Dai Jei
Dongcheng District
Beijing
China 100005
01/07/00
Tait Electronics (Far East) Pte
Ltd
4 Leng Kee Road
SIS Building #05-11A
Singapore 159088
Phone: 65 471-2688
Fax: 65 479-7778
Copyright TEL
3
M830P-00
About This Manual
Scope
This manual contains general, technical, tuning and adjustment
information on T830 Series II 50W and 100W paging base stations which comprise the following equipment:
50W base station
T837 paging exciter
T838 50W power amplifier
100W base station
T837 paging exciter
T839 100W power amplifier
PCB Information
PCB information is provided for all current issue PCBs, as well
as all previous issue PCBs manufactured in production quantities, and is grouped according to PCB. Thus, you will find the
parts list, grid reference index (if necessary), PCB layouts and
circuit diagram(s) for each individual PCB grouped together.
Errors
If you find an error in this manual, or have a suggestion on how
it might be improved, please do not hesitate to contact Customer
Support, Tait Electronics Ltd, Christchurch, New Zealand (full
contact details are on page 2).
Updating Equipment And Manuals
In the interests of improving performance, reliability or servicing, Tait Electronics Ltd
reserve the right to update their equipment and/or manuals without prior notice.
Copyright
All information contained in this manual is the property of Tait Electronics Ltd. All
rights are reserved. This manual may not, in whole or part, be copied, photocopied,
reproduced, translated stored or reduced to any electronic medium or machine readable
form without prior written permission from Tait Electronics Ltd.
Ordering Tait Service Manuals
You can order additional copies of this manual from your nearest Tait Dealer or Customer Service Organisation. When ordering, make sure you quote the correct Tait product code ("M" number). Note that only the latest issue of the manual will be available
for order.
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4
M830P-00
Table Of Contents
This manual is divided into eight parts as listed below, with each part being further subdivided into sections. There is a detailed table of contents at the start of each part and/
or section.
Part
Title
Introduction To Servicing
T835 Receiver - not used in this manual
T837 Paging Exciter
T838 & T839 Power Amplifiers
T830 VCO PCB Information
Installation
T800-28-0X00 Paging Rack Frame
T800 Ancillary Equipment
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AI
M830P-00
Part A
Introduction To Servicing
This part of the manual is divided into the sections listed below. These sections provide
some general and advisory information on servicing procedures, and a brief history of
PGM800Win programming software.
Section
Title
Page
General
1.1
1.1
Additional Technical Information
1.1
1.2
Caution: CMOS Devices
1.1
1.3
Caution: Aerial Load
1.2
1.4
Caution: Beryllium Oxide & Power Transistors
1.2
Mechanical
2.1
2.1
Torx Recess Head Screws
2.1
2.2
Pozidriv & Philips Recess Head Screws
2.2
2.3
2.3.1
2.3.2
Disassembly/Reassembly
Exciters
Power Amplifiers
2.3
2.3
2.3
2.4
Cover Screw Torques
2.3
2.5
Chassis & Cover Compatibility
2.4
Component Replacement
3.1
3.1
3.1.1
3.1.2
Leaded Components
Desoldering Iron Method
Component Cutting Method
3.1
3.1
3.1
3.2
Surface Mount Devices
3.2
3.3
Cased Mica Capacitors
3.2
Software History
4.1
4.1
PGM800Win V1.0
4.1
4.2
PGM800Win V2.00
4.1
Figure
Title
Page
1.1
Typical Product Code & Serial Number Labels
1.1
1.2
Typical Anti-static Bench Set-up
1.2
2.1
Torx Screw Identification
2.1
2.2
Pozidriv & Philips Screw & Screwdriver Identification
2.2
2.3
Identification Of New-Design Chassis & Covers
2.4
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Copyright TEL
General
M830P-00
General
1.1
Additional Technical Information
A1.1
If you have any questions about this manual or the equipment it describes, please contact your nearest Tait Dealer or Customer Service Organisation. If necessary, you can get
additional technical help from Customer Support, Tait Electronics Ltd, Christchurch,
New Zealand (full contact details are on page 2).
When requesting information, please quote either the manual product code (e.g.
M830P-00-1TA), or the equipment product code and serial number which are printed on
a label on the back of the product (as shown in Figure 1.1).
this area used for regional
Type Approval information
T838-10-0000
Rev 1
product code
900000
Tait Electronics Limited
Made in New Zealand
serial number
T835-10-0000
Rev 1
900000
Tait Electronics Limited
Made in New Zealand
Figure 1.1 Typical Product Code & Serial Number Labels
If you require information about a particular PCB, please quote the full PCB internal
part number (IPN) which is screen printed onto the top side of the board (refer to the
appropriate PCB Information section in this manual for more details).
1.2
Caution: CMOS Devices
This equipment contains CMOS Devices which are susceptible to damage from static
charges. Care when handling these devices is essential. For correct handling procedures refer to the manufacturers' data books, e.g. Philips data books covering CMOS
devices, or Motorola CMOS data books, Section 5 'Handling', etc.
An anti-static bench kit (refer to Figure 1.2) is available from Tait Electronics Ltd under
the following product codes:
• KS0001 - 1 conductive rubber bench mat
- 1 earth lead to connect the mat to ground
• KS0004 - 1 wrist strap.
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A1.2
General
M830P-00
conductive
wrist strap
conductive rubber
bench mat
to building earth
(not mains earth)
Figure 1.2 Typical Anti-static Bench Set-up
1.3
Caution: Aerial Load
The equipment has been designed to operate safely under a wide range of aerial loading
conditions. However, we strongly recommend that the transmitter should always be
operated with a suitable load to prevent damage to the transmitter output power stage.
1.4
Caution: Beryllium Oxide & Power Transistors
The RF power transistors in current use all contain some beryllium oxide. This substance, while perfectly harmless in its normal solid form, can become a severe health
hazard when it has been reduced to dust. For this reason the RF power transistors
should not be broken open, mutilated, filed, machined, or physically damaged in any
way that can produce dust particles.
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Mechanical
M830P-00
Mechanical
2.1
Torx Recess Head Screws
A2.1
Torx recess head screws are becoming the standard screw head type in all T800 Series II
equipment, with Pozidriv and Philips recess head screws being used in fewer applications.
The Torx recess head has the advantage of improved screwdriver tip location, reducing
the chances of screw head damage caused by the driver tip rotating within the recess. In
addition, using a ball-tip Torx screwdriver allows you to drive a Torx head screw with
the driver on a slight angle, which can be useful in situations where access is restricted.
It is important that you use the correct Torx screwdriver tip:
M3 screws M4 screws -
T10
T20.
Figure 2.1 below shows a typical Torx recess head screw (actual hardware may differ
slightly from this illustration due to variations in manufacturing techniques).
"star" shaped recess with
six internal notches
Figure 2.1 Torx Screw Identification
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A2.2
Mechanical
2.2
Pozidriv & Philips Recess Head Screws
M830P-00
Pozidriv and Philips recess head screws will continue to be used in T800 Series II equipment in a few special applications. It is important that you use the correct type and size
screwdriver for each screw type to avoid damaging the screw head.
It is particularly important that you do not use Philips screwdrivers on Pozidriv screw
heads as the tapered driving flutes of the Philips screwdriver do not engage correctly
with the parallel-sided slots in the Pozidriv screw head. This can result in considerable
damage to the screw head if the screwdriver tip turns inside the recess.
Note:
If you find you need excessive downwards pressure to keep the screwdriver
tip in the Pozidriv screw head, you are probably using the wrong type and/
or size screwdriver.
Figure 2.2 below shows the main differences between typical Pozidriv and Philips screw
heads and screwdriver tips (actual hardware may differ slightly from these illustrations
due to variations in manufacturing techniques).
Pozidriv
Philips
internal notches
no special markings
"star" markings
between slots
slots with parallel sides
slots with tapered sides
driving flutes with
parallel sides
driving flutes with
tapered sides
ridges between
driving flutes
Figure 2.2 Pozidriv & Philips Screw & Screwdriver Identification
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Mechanical
M830P-00
2.3
Disassembly/Reassembly
2.3.1
Exciters
A2.3
To carry out alignment or change option links, you need to remove only the top cover,
i.e. the one adjacent to the front panel handle and on the opposite side to the main
D-range connector (D-range 1/PL100).
You need to remove the bottom cover to access:
• Q370
• solder link SL501 (fast key option).
2.3.2
Power Amplifiers
You should carry out the tuning and power output level setting procedures with the
cover on.
2.4
Cover Screw Torques
Exciters
.. 1.36Nm/12in.lbf.
Power Amplifiers
.. 0.9Nm/in.lbf.
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A2.4
Mechanical
2.5
Chassis & Cover Compatibility
M830P-00
The chassis and covers used in T800 Series II modules incorporate a number of design
changes to improve Electro-Magnetic Compatibility (EMC) performance. It is important that only the new-design covers are fitted to the new chassis to ensure correct
mechanical fit and continued compliance with appropriate EMC Type Approval regulations.
Figure 2.3 below shows some of the main features which can be used to identify the
new-design chassis and covers.
Chassis
←Top View
Rear View→
4 holes in
rear panel
loom channel in
top of walls
groove in top
of rear wall
Top Cover
provision for mounting speaker
(future development)
ridge on top
of rear wall
Bottom Cover
additional walls
Figure 2.3 Identification Of New-Design Chassis & Covers
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Component Replacement
M830P-00
Component Replacement
3.1
Leaded Components
A3.1
Whenever you are doing any work on the PCB that involves removing or fitting components, you must take care not to damage the copper tracks. The two satisfactory methods of removing components from plated-through hole (PTH) PCBs are detailed below.
Note:
The first method requires the use of a desoldering station, e.g. Philips SBC
314 or Pace MBT-100E.
3.1.1
Desoldering Iron Method
Place the tip over the lead and, as the solder starts to melt, move the tip in a circular motion.
Start the suction and continue the movement until 3 or 4 circles have been completed.
Remove the tip while continuing suction to ensure that all solder is removed from
the joint, then stop the suction.
Before pulling the lead out, ensure it is not stuck to the plating.
If the lead is still not free, resolder the joint and try again.
Note:
The desoldering iron does not usually have enough heat to desolder leads
from the ground plane. Additional heat may be applied by holding a soldering iron on the tip of the desoldering iron (this may require some additional help).
3.1.2
Component Cutting Method
Cut the leads on the component side of the PCB.
Heat the solder joint sufficiently to allow easy removal of the lead by drawing it
out from the component side: do not use undue force.
Fill the hole with solder and then clear with solderwick.
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A3.2
Component Replacement
3.2
Surface Mount Devices
Caution:
3.3
M830P-00
Surface mount devices (SMDs) require special storage, handling,
removal and replacement techniques. This equipment should be serviced only by an approved Tait Dealer or Customer Service Organisation equipped with the necessary facilities. Repairs attempted with
incorrect equipment or by untrained personnel may result in permanent damage. If in doubt, contact your nearest Tait Dealer or Customer
Service Organisation.
Cased Mica Capacitors
Cased mica capacitors can be removed by heating the top with a heavy-duty soldering
iron and gently lifting the capacitor off the PCB with a solder-resistant spike or equivalent.
01/07/00
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Software History
M830P-00
A4.1
Software History
28/06/96
18/08/97
4.1
PGM800Win Version 1.0
PGM800Win Version 2.00
PGM800Win V1.0
PGM800Win V1.0 is different in concept from DOS versions of PGM800 in that it is Windows1 based. It also includes many new and improved features over DOS versions of
PGM800.
The major changes are outlined below:
•
The Windows environment makes data entry and editing significantly easier.
•
PGM800Win includes several new radio models which are not programmable
with DOS versions of PGM800.
•
Out of range frequencies will result in warning messages and will not be accepted
for entry into the standard library module. User defined modules can be created,
however, allowing variation from the standard library module.
•
Channel numbers default to 0-127 to match the EPROM memory locations. However, the user can change this setting so that the channel numbers run from 1-128
to suit his/her particular needs.
Note:
The data files produced by BASEPROG V1.0 and all DOS versions of
PGM800 are still compatible with PGM800Win V1.0.
4.2
PGM800Win V2.00
PGM800Win V2.00 is an upgraded and expanded version of PGM800Win V1.0. It has
been developed specifically for T800 Series II base stations, but retains the ability to program Series I equipment.
The major changes are outlined below:
•
PGM800Win V2.0 will program T800 Series II base station modules via serial communications.
•
Deviation and reference modulation settings are written automatically to the
radio.
1. Windows is a registered trademark of the Microsoft Corporation.
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A4.2
•
Software History
M830P-00
Extra information that is not stored in the radio (but which is still relevant to the
radio) can be saved to a file on disk (e.g. note field, auxiliary pin names, etc.).
Note:
01/07/00
The data files produced by BASEPROG V1.0, all DOS versions of PGM800,
and PGM800Win V1.0 are still compatible with PGM800Win V2.00.
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BI
M830P-00
Part B
T835 Receiver
The T835 receiver is not covered in this manual. Refer to M830-00-201 (or later issue) for
servicing information on the T835.
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BII
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M830P-00
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CI
M830P-00
Part C
T837 Paging Exciter
This part of the manual is divided into six sections, as listed below. There is a detailed
table of contents at the start of each section.
Section
Title
General Information
Circuit Operation
Initial Tuning & Adjustment
Functional Testing
Fault Finding
PCB Information
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CII
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M830P-00
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T837 General Information
M830P-00
C1.1
T837 General Information
This section provides a brief description of the T837 paging exciter, along with detailed
specifications and a list of types available.
The following topics are covered in this section.
Section
Title
Page
1.1
Introduction
1.5
1.2
Specifications
1.6
1.2.1
Introduction
1.6
1.2.2
General
1.6
1.2.3
RF Section
1.7
1.2.4
Low Speed Paging Modulator
1.8
1.2.5
Microcontroller
1.8
1.2.6
1.2.6.1
1.2.6.2
1.2.6.3
Test Standards
European Telecommunication Standard
Telecommunications Industry Association
Chinese Radio Regulatory Commission
1.8
1.8
1.8
1.9
1.3
Product Codes
1.10
1.5
T837 Paging Product Range
1.11
Figure
Title
Page
1.1
T837 Main Circuit Block Identification
1.4
1.2
T837 Front Panel Controls
1.4
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C1.2
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T837 General Information
M830P-00
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M830P-00
T837 General Information
C1.3
replace A4 pages C1.3/C1.4 with A3 pages C1.3/C1.4
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C1.4
T837 General Information
M830P-00
replace A4 pages C1.3/C1.4 with A3 pages C1.3/C1.4
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T837 General Information
M830P-00
1.1
C1.5
Introduction
The T837 is a synthesised, microprocessor controlled, DFSK low speed paging exciter
designed for single or multichannel1 operation in the 148 to 174MHz frequency range2.
With a standard power output of only 800mW, the exciter is designed for use with the
T839 100W power amplifier. The RF section of the exciter comprises a frequency synthesiser which provides 170mW of frequency modulated RF drive to a two stage, wide
band output amplifier. The synthesiser frequency is programmed via the serial communications port.
The low speed paging modulator section provides DFSK modulation. It incorporates a
TCXO frequency reference and uses two point modulation to achieve modulation of
data rates from 2400bps down to DC.
All components except those of the VCO are mounted on a single PCB. This is secured
to a die-cast chassis which is divided into compartments to individually shield each section of circuitry. Access to both sides of the main circuit board is obtained by removing
each of the chassis lids. There is provision within the chassis to mount small option
PCBs.
The front panel has two indicator LEDs to show when the transmit carrier is on (red)
and when the DC supply is connected (green). The T837 is 60mm wide and occupies a
single space in a Tait rack frame, which has the ability to accommodate up to seven
standard modules.
1. Although you can program the microcontroller with up to 128 channels, you must
carry out the modulation adjustment procedure if you change frequency (see Section
3.5).
2. Although capable of operating over the 148-174MHz frequency range, the T837 has an
8MHz VCO switching range (see Section 1.2.3 and Section 3.1).
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C1.6
T837 General Information
1.2
Specifications
1.2.1
Introduction
M830P-00
The performance figures given are minimum figures, unless otherwise indicated, for
equipment tuned with the maximum switching range and operating at standard room
temperature (+22°C to +28°C) and standard test voltage (13.8V DC).
Where applicable, the test methods used to obtain the following performance figures are
those described in the EIA and ETS specifications. However, there are several parameters for which performance according to the Chinese specification GB/T 15938 is given.
Refer to Section 1.2.6 for details of test standards.
Details of test methods and the conditions which apply for Type Approval testing in all
countries can be obtained from Tait Electronics Ltd.
1.2.2
General
Number Of Channels
.. 128 (standard)1
Supply Voltage:
Operating Voltage
Standard Test Voltage
Polarity
Polarity Protection
Line Keying Supply (if required)
..
..
..
..
..
10.8 to 16V DC
13.8V DC
negative earth only
crowbar diode
-50V DC
Supply Current:
Transmit
Standby
- T837-2X-1020
- T837-2X-1021
Operating Temperature Range
.. <650mA
.. <150mA
.. <200mA
.. -30°C to +60°C
Dimensions:
Height
Width
Length
.. 183mm
.. 60mm
.. 320mm
Weight
.. 2.1kg
Time-Out Timer (optional)
.. 0 to 5 minutes2 adjustable in 10 second steps
1. Additional channels may be factory programmed. Contact your nearest Tait Dealer or
Customer Service Organisation.
2. Adjustable from 0 to 10 minutes in PGM800Win version 2.12 and later.
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T837 General Information
M830P-00
C1.7
.. 0 to 5 seconds adjustable in 100ms1
steps
Tail Timer
Transmit Key Time:
T837-20-102X
T837-26-102X
Transmit Lockout Timer
1.2.3
.. <100ms
.. <30ms
.. 0 to 1 minute adjustable in 10 second
steps
RF Section
Frequency Range
.. 148-174MHz
Modulation Type
.. DFSK
Frequency Increment:
T837-20-102X
T837-26-102X
.. 5 or 6.25kHz
.. 2.5 or 3.125kHz
VCO Switching Range
.. 8MHz
Load Impedance
.. 50 ohms
Frequency Stability:
T837-2X-1020
T837-2X-1021
.. ±1.0ppm, -20°C to +70°C
±2.0ppm, -30°C to +70°C
.. ±1.5ppm, -30°C to +70°C
External Reference Frequency
(T837-2X-1021)
.. 100kHz to 25.6MHz in 100kHz steps
External Reference Amplitude
.. 0 to +10dBm into 50Ω
Adjacent Channel Power
(4.5kHz deviation)
.. -75dBc (ETS)
-70dBc (GB/T 15938)
Transmitter Side Band Noise:
(no modulation, 15kHz bandwidth)
At ±25kHz
At ±1MHz
.. -95dBc
.. -105dBc
Radiated Spurious Emissions:
Transmit
Standby
.. -36dBm to 1GHz
-30dBm to 4GHz
.. -57dBm to 1GHz
-47dBm to 4GHz
1. Adjustable in 20ms steps in PGM800Win version 2.12 and later.
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C1.8
T837 General Information
M830P-00
Power Output
.. 800mW ±200mW
Transmit Keying Noise
.. -70dBc (GB/T 15938)
1.2.4
Low Speed Paging Modulator
Accepted Protocols/Speeds:
T837-20-102X
T837-26-102X
Input Data Levels
.. POCSAG 512/1200 and FLEX 1600
.. POCSAG 512/1200/2400 and
FLEX 1600
.. TTL
Data Rise Time (10% - 90%):
T837-20-102X
T837-26-102X
1.2.5
.. <150µs (GB/T 15938)
.. <115µs
Microcontroller
Auxiliary Ports:
Open Drain Type
Vds max.
1.2.6
.. capable of sinking 2.25mA via 2k2Ω
.. 5V
Test Standards
Where applicable, this equipment is tested in accordance with the following standards.
1.2.6.1
European Telecommunication Standard
ETS 300 113 March 1996
Radio equipment and systems; land mobile service; technical characteristics and test
conditions for radio equipment intended for the transmission of data (and speech) and
having an antenna connector.
1.2.6.2
Telecommunications Industry Association
ANSI/TIA/EIA-603-1992
Land mobile FM or PM communications equipment measurement and performance
standards.
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T837 General Information
M830P-00
1.2.6.3
C1.9
Chinese Radio Regulatory Commission
GB/T 15938 - 1995
General specification for equipment of radio paging systems.
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C1.10
T837 General Information
1.3
Product Codes
M830P-00
The three groups of digits in the T830 Series II product code provide information about
the model, type and options fitted, according to the conventions described below.
The following explanation of T830 Series II product codes is not intended to suggest that
any combination of features is necessarily available in any one product. Consult your
nearest Tait Dealer or Customer Service Organisation for more information regarding
the availability of specific models, types and options.
Model
The Model group indicates the basic function of the product, as follows:
T83X-XX-XXXX
T837 exciter
T838 50W power amplifier
T839 100W power amplifier
Type
The Type group uses two digits to indicate the basic RF configuration of the product.
The first digit in the Type group designates the frequency range:
T83X-XX-XXXX
’2’ for 148-174MHz
The second digit in the Type group indicates the channel spacing:
T83X-XX-XXXX
’0’ for wide bandwidth (25kHz) - standard
’6’ for wide bandwidth (25kHz) - USA
Options
T83X-XX-XXXX
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The Options group uses four digits and/or letters to indicate
any options that may be fitted to the product. This includes
standard options and special options for specific customers.
’0000’ indicates a standard Tait product with no options fitted.
The large number of options precludes listing them here.
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T837 General Information
M830P-00
1.4
C1.11
T837 Paging Product Range
The following table lists the range of T837 paging product types available at the time
this manual was published. Consult your nearest Tait Dealer or Customer Service
Organisation for more information.
Frequency Range (MHz)
148-174
Deviation (kHz)
Baud Rate (bps)
Frequency Increments (kHz)
TCXO
±1.0ppm -20°C to +70°C
±2.0ppm -30°C to +70°C
1200
1200
2400
2400
5/6.25
5/6.25
2.5/3.125
2.5/3.125
•
•
±1.5ppm -20°C to +70°C
Exciter Type: T837-
•
20-1020
20-1021
•
26-1020
26-1021
You can identify the exciter type by checking the product code printed on a label on the
rear of the chassis (Figure 1.1 in Part A shows typical labels). You can further verify the
exciter type by checking the placement of an SMD resistor in the table that is screen
printed onto the PCB (refer to Section 6.1 for more details).
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C1.12
01/07/00
T837 General Information
M830P-00
Copyright TEL
T837 Circuit Operation
M830P-00
C2.1
T837 Circuit Operation
This section provides a basic description of the circuit operation of the T837 paging
exciter.
Unless otherwise specified, the term "PGM800Win" used in this and following sections refers to version 2.00 and later of the software.
Note:
Refer to Section 6 where the parts lists, grid reference index and diagrams will provide
detailed information on identifying and locating components and test points on the
main PCB. The parts list and diagrams for the VCO PCB are in Part E.
The following topics are covered in this section.
Section
Title
Page
2.1
Introduction
2.3
2.2
Microcontroller
2.4
2.3
Synthesised Local Oscillator
2.5
Two Point Modulation
2.6
VCO
2.7
VCO Supply
2.7
Low Speed Paging Modulator
2.8
2.5.1
General
2.8
2.5.2
AFC/PLL Operation
2.8
2.5.3
Data Path
2.9
2.5.4
External Reference Frequency (T837-2X-1021 Only)
2.9
2.5.5
Keying Inputs
2.10
2.5.6
Paging Modulator Links
2.10
2.6
Power Supply & Regulator Circuits
2.11
2.7
Transmit Timers
2.12
2.8
Exciter Drive Amplifier
2.13
2.3.1
2.4
2.4.1
2.5
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C2.2
T837 Circuit Operation
Figure
M830P-00
Title
Page
2.1
T837 High Level Block Diagram
2.3
2.2
T837 Microcontroller Block Diagram
2.4
2.3
T837 Synthesiser Block Diagram
2.5
2.4
T837 AFC Block Diagram
2.8
2.5
T837 Power Supply & Regulators Block Diagram
2.11
2.6
T837 Transmit Timers
2.12
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T837 Circuit Operation
M830P-00
2.1
C2.3
Introduction
The individual circuit blocks which make up the T837 are:
• synthesiser
• VCO
• paging modulator
• drive amplifier
• voltage regulators.
Each of these circuit blocks is set in its own shielded compartment, formed as an integral part of the main chassis.
The configuration of the circuit blocks may be seen on a functional level in Figure 2.1.
Refer to the circuit diagrams in Section 6.2 for more detail.
PIN
Switch
Synthesiser
Low Pass
Filter
Exciter
Output
(800mW)
+22dBm
Lock
Detect
Reference
Oscillator
12.8MHz
Data
Drive
Amp.
Switching
Control
Paging
Modulator
PA Control Signal
(via exciter RF coax)
Time
Delay
Ramp
Gen.
Gate
Tx Reg
Time
Delay
VCO
Figure 2.1 T837 High Level Block Diagram
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C2.4
T837 Circuit Operation
2.2
Microcontroller
M830P-00
(Refer to the microcontroller circuit diagram (sheet 8) in Section 6.2.)
5V Digital
Regulator
5V
Watchdog
Reset
Reset
Microcontroller Cavity
Channel
Select
Port
12.8MHz
Clock
External
Serial
Port
Microcontroller
Auxiliary
Output
Port
Converter
EEPROM
Synthesiser
Figure 2.2 T837 Microcontroller Block Diagram
Overall system control of the T837 is accomplished by the use of a member of the 80C51
family of microcontrollers (IC810). It runs from internal ROM and RAM, thus leaving
all four ports free for input/output functions.
Non-volatile data storage is achieved by serial communication with a 16kBit EEPROM
(IC820). This serial bus is also used by the microcontroller to program the synthesiser
(IC740).
The main tasks of the microcontroller are as follows:
• program the synthesiser;
• interface with the PGM800Win programming software at 9600 baud via the
serial communication lines on D-range 1 (PL100);
• coordinate and implement timing control of the exciter;
• control the front panel "Supply" LED (refer to Section 5.3).
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T837 Circuit Operation
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2.3
C2.5
Synthesised Local Oscillator
(Refer to the synthesiser circuit diagram (sheet 7) in Section 6.2 and the VCO circuit diagram in Part E.)
VCO
Modulation
FREQUENCY SYNTHESISER IC
12.8MHz
Reference
Oscillator
Reference
Divider
Paging
Modulator
fref
Serial
Bus
Charge
Pump
Loop
Filter
Σ
/R
Ref
Mod
Clk
Data
En
Phase
Detector
12.8MHz
Programmable
Divider
Prescaler
/N
64/65
VCO PCB
VCO
Buffer
Output
Buffer
+22dBm
L.O.
f in
Divider Buffer
Controller
Figure 2.3 T837 Synthesiser Block Diagram
The synthesiser (IC740) employs a phase-locked loop (PLL) to lock a voltage controlled
oscillator (VCO) to a given reference frequency. The synthesiser receives the divider
information from the control microprocessor via a 3 wire serial bus (clock, data, enable).
When the data has been latched in, the synthesiser processes the incoming signals from
the VCO buffer (fin) and the phase modulator (fref).
A 12.8MHz reference frequency is fed from the paging modulator section to the frequency synthesiser Refin (IC740 pin 20). This reference frequency is derived from the
VCXO (X101), which is locked to the internal frequency standard provided by the TCXO
(X100). The reference frequency has been modulated in the VCXO by the incoming data
to allow the synthesiser loop to modulate down to DC. This 12.8MHz reference frequency is divided down to 6.25kHz or 5.0kHz in the synthesiser IC (IC740).
A buffered output of the VCO (Q795) is divided with a prescaler and programmable
divider which is incorporated into the synthesiser chip (IC740). This signal is compared
with the phase modulated reference signal at the phase detector (also part of the synthesiser chip). The phase detector outputs drive a balanced charge pump circuit (Q760,
Q770, Q775, Q780, Q785) and active loop filter (IC750 pins 5, 6 & 7) which produces a
DC voltage between 0V and 20V to tune the VCO. This VCO control line is further filtered to attenuate noise and other spurious signals. Note that the VCO frequency
increases with increasing control voltage.
If the synthesiser loop loses lock, a pulsed signal appears at LD (pin 2) of IC740. This
signal is filtered and buffered by IC750 pins 1, 2 & 3, producing the Lock-Detect signal
used to shut off the power supply to the drive amplifier. IC750 pin 1 is at 20V when the
synthesiser is out of lock.
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C2.6
T837 Circuit Operation
2.3.1
Two Point Modulation
M830P-00
Frequency modulation occurs by modulating both the VCO input and the synthesiser
reference input. This process is called two point modulation and ensures a flat modulation response from 0 to 2400bps.
The PLL has a fast response time, allowing a Tx key-up time of <30ms. Because of this
fast response time the PLL sees lower modulation frequencies superimposed on the
VCO as an error and corrects for it, resulting in no modulation on the carrier. At modulation frequencies greater than 300Hz the loop cannot correct fast enough and modulation is seen on the carrier.
To achieve low frequency modulation, the reference oscillator is also modulated so that
the phase detector of IC740 detects no frequency error under modulation. Thus, the
synthesiser loop will not attempt to correct for modulation and the data frequency
response of the transmitter remains unaffected.
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T837 Circuit Operation
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2.4
C2.7
VCO
(Refer to the VCO circuit diagram in Part E.)
The VCO transistor (Q1) operates in a common source configuration, with an LC tank
circuit coupled between its gate and drain to provide the feedback necessary for oscillation. The VCO control voltage from the loop filter (IC750 pin 7) is applied to the varicaps (D1-D4) to facilitate tuning within an 8MHz band of frequencies. A trimcap (CV1)
is used for coarse tuning of the VCO. The output from the oscillator circuit drives a cascode amplifier stage (Q2, Q3) which supplies +10dBm (typically) to a further stage of
amplification, Q5. This is the final amplifier on the VCO PCB, and delivers +22dBm
(typically) to the exciter drive amplifier.
A low level "sniff" is taken from the output of Q3 and used to drive the divider buffer
(Q795) for the synthesiser (IC740).
The VCO operates at the actual output frequency of the exciter, i.e. there are no multiplier stages. The VCO is modulated by superimposing the data signal onto the control
voltage and by frequency modulating the reference signal.
2.4.1
VCO Supply
The VCO is supplied from two switched +9V supplies under the control of the Tx-Reg.
supply.
The VCO (Q1) and buffer amplifier (Q2 & Q3) are supplied from one +9V switched supply by Q540 via the capacitor multiplier (Q550, C550).
The output amplifier is supplied from the other +9V supply by Q520, Q530, and Q510.
A delay circuit holds the VCO on for a short time after the Tx-Reg. supply has been
switched off. This is to allow the RF power circuits (both exciter and PA) to ramp down
in the correct manner before the VCO is switched off.
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C2.8
T837 Circuit Operation
2.5
Low Speed Paging Modulator
M830P-00
(Refer to the low speed paging modulator circuit diagram (sheet 2) in Section 6.2.)
2.5.1
General
The T837-2X-102X is a dedicated paging exciter. The low speed paging modulator section of the exciter accepts TTL data at the D-range input and modulates the synthesiser
using a two point modulation method that provides modulation of data input frequencies of 2400bps down to DC (all 1’s or all 0’s).
The paging modulator section incorporates a TCXO frequency reference and a modulatable VCXO which is locked to the reference frequency from the TCXO.
The paging modulator also has provision for fitting an optional FFSK modem PCB.
2.5.2
AFC/PLL Operation
-1
VCXO
Data Line
AFC
Loop Filter
Summing
Amp.
Modulated
Reference
12.8MHz
TCXO
Figure 2.4 T837 AFC Block Diagram
The TCXO is the default frequency standard. In PLL mode, the slave 12.8MHz VCXO is
phase locked to the TCXO. Both the TCXO and the VCXO outputs are clipped in IC100
and IC102 and then frequency divided by 4 in the twisted ring counters, IC105 (TCXO)
and IC110 (VCXO). The slave VCXO is also fed to the synthesiser reference input.
Each twisted ring counter provides four divide-by-four outputs, the Q and not Q having
the relative phases 0°, 90°, 180° and 270°. These two signals are combined in the two
XOR gate phase discriminators in IC115 to provide two beat frequencies that are in
phase quadrature. Both these outputs are filtered to pass the low frequency beat signal,
which is a 5Vpp triangle wave.
The output from pin 8 of IC115 is then differentiated to provide a further 90° phase
shifted square wave output on pin 14 of IC120. The amplitude of the output is proportional to the frequency difference between the TXCO and the VCXO. The square wave
is then rectified by gating the signal with an inverted version of itself through a CMOS
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T837 Circuit Operation
M830P-00
C2.9
switch. The switch is controlled by a square wave derived from the triangle wave on
pin 7 of IC120. This square wave will either be in-phase or inverted with respect to the
output on pin 14 of IC120, depending on whether the VCXO frequency is higher or
lower than the TCXO frequency.
The output from the CMOS switch (pin 14 of IC150) is a direct voltage which has amplitude and sense that is relative to the beat frequency. This signal is used as the control
voltage for the VCXO. The rectified signal is then summed with an inverted version of
the data, which cancels the effect of the data on the loop filter but still allows the VCXO
to follow the TCXO frequency. Although the VCXO and TCXO are not on the same frequency when data is being applied, the VCXO frequency will not drift with respect to
the TCXO.
2.5.3
Data Path
The input data enters the radio via pin 12 of D-range 1 (PL100). The data is fed into the
paging modulator at I/O pad P101, which is buffered by Q100, and then through an
XOR gate (IC115 pins 2 & 3) which gives the option of inverting the data.
IC140 pins 5 & 6 translate the level of the signal to 9Vpp, and then the data passes
through an attenuator and data filter. The data path is switched at the output of the filter by IC150 pins 1, 2 & 15, which allows the data to be removed from the AFC loop for
testing purposes.
From the switch the data travels three paths:
• The first path is via RV100 to the LOOP-MOD output to modulate the VCO.
• The second path is through RV101 to the summing amp. This data modulates
the control line of the VCXO, which produces the modulated reference.
• The third data path, which originates at the switch, is the feedforward data
path. The data is inverted, attenuated by RV102 and then summed with the
output of the AFC. The effect of this data path is to stop the loop filter from
correcting the VCXO frequency deviation caused by the data on the data line.
2.5.4
External Reference Frequency (T837-2X-1021 Only)
The paging modulator section of the T837-2X-1021 exciter incorporates an additional
synthesiser (*IC200) which can be configured to provide a 12.8MHz reference frequency
from an external frequency standard. This external frequency can be from 100kHz up to
25.6MHz in 100kHz steps.
When using an external reference, you must set the onboard synthesiser’s reference frequency according to the frequency of the external reference. This is achieved by placing
resistors *%R240 - *%R247 in a pattern corresponding to a binary number which represents the reference divider ratio (see Section 3.6).
The internal TCXO (%X100) is used as the standard reference frequency, but is phaselocked to the external frequency when this is applied.
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C2.10
T837 Circuit Operation
M830P-00
When there is no external reference frequency present, *Q104 is turned off and *IC160
switches 2.5V DC to the AFC input of the internal TCXO. The reference frequency can
be adjusted by the trimmer on the TCXO itself.
When an external reference frequency is present, *Q104 switches on and *IC160 switches
the synthesiser phase detector output voltage to the AFC input of the internal TCXO. A
buffered 12.8MHz output of the internal TCXO is fed back to the synthesiser oscillator
input and compared with the external reference frequency, thus ensuring that the internal TCXO is phase-locked to the external reference frequency.
The synthesiser Lock-Detect signal drives an LED *D116 on the main PCB which is lit
when the synthesiser is locked to the external reference frequency. The Lock-Detect signal is also fed to pin 8 of D-range 1 (PL100) for external monitoring purposes. The output is low when the synthesiser is locked.
2.5.5
Keying Inputs
There are two ways to key the exciter:
• pulling the Tx-Key line low (pin 13 on D-range 1 [PL100]) at the rear of the set);
• via the modem carrier detect line when the optional modem PCB is fitted.
Note:
Link S100 must be connected when using the Tx-Key line input.
2.5.6
Paging Modulator Links
Three solder links are provided in the paging modulator circuit. Their functions are
described in the following table:
Link
Function
Standard
Setting
S100
Tx-Key
linked
S101
invert data
not linked
inverts the incoming data
S102
invert key
not linked
inverts the key line (connected when using
modem carrier detect)
01/07/00
Description
ties the Tx-Key line to +5V for earthed Tx-Key
line operation
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T837 Circuit Operation
M830P-00
2.6
C2.11
Power Supply & Regulator Circuits
(Refer to the regulators circuit diagram (sheet 6) in Section 6.2.)
+9V
Buffer
Power
Switch
Microcontroller
Tx Enable
Tx Reg.
Watchdog
Timer
13.8V Nom.
From Rear
D-Range
DC
Amp
5V
Reg
Crowbar
Diode
13.8V
Nom.
5V
5V Dig
Reg
Switching
PS
9V
20V
LVI
µP
µP
Reset
5V Dig
Figure 2.5 T837 Power Supply & Regulators Block Diagram
The T837 is designed to operate from a 10.8-16V DC supply (13.8V nominal). A 5.3V
regulator (IC630) runs directly from the 13.8V rail, driving much of the synthesiser circuitry. It is also used as the reference for a DC amplifier (IC640, Q630, Q620) which provides a medium current capability 9V supply.
A switching power supply (Q660, Q670) runs from the 9V supply and provides a low
current capability +20V supply. This is used to drive the synthesiser loop filter (IC750),
giving a VCO control voltage range of up to 20V, and the Lock-Detect amplifiers.
Ultimate control of the transmitter is via the Tx-Reg. supply, switched from 9V by Q610.
This is enabled via the Tx-Enable signal from the modulator, and microprocessor.
A crowbar diode is fitted for protection against connection to a power supply of incorrect polarity. It also provides transient overvoltage protection.
Note:
Copyright TEL
A fuse must be fitted in the power supply line for the diode to provide effective protection.
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C2.12
T837 Circuit Operation
2.7
Transmit Timers
M830P-00
The transmit tail timer, transmit timeout timer and transmit lockout timer can all be set
from PGM800Win. The fields for setting these are found on the system information
page. These three timers operate as follows (refer also to Figure 2.6):
Timer
Function
Adjustment
Transmit Tail
Sets the tail time during which the
transmitter stays keyed after the external key source has been removed.
0-5 seconds in 100ms
stepsa
Transmit Timeout
Sets the maximum continuous transmission time. Once the timer has
timed out, the transmitter must be
keyed again, unless prevented by the
transmit lockout timer.
0-300 secondsb in 10
second steps
Transmit Lockout
Sets the period of time that must
elapse after a timeout before the transmitter can re-transmit. Once the timer
has timed out, the transmitter can be
keyed again.
0-60 seconds in 10
second steps
a. Adjustable in 20ms steps in PGM800Win version 2.12 and later.
b. Adjustable from 0 to 600 seconds in PGM800Win version 2.12 and later.
Tx-Enable
On
Tx-Reg.
Tx-Enable
Tail Time
On
Tx-Reg.
Lockout Time
Timeout
Time
Figure 2.6 T837 Transmit Timers
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T837 Circuit Operation
M830P-00
2.8
C2.13
Exciter Drive Amplifier
(Refer to Figure 2.1 and the exciter circuit diagram (sheet 3) in Section 6.2.)
A two-stage, wide band amplifier (Q365, Q370) provides an output level of approximately 800mW (+29dBm) for an input of 170mW (+22dBm) from the VCO. IC330 pins
5, 6 & 7, Q310, and Q315 provide a 10.5V regulated supply for the exciter.
To reduce the spurious output level when the synthesiser is out-of-lock, the Tx-Reg. and
Lock-Detect signals are gated to inhibit the exciter control circuit and to switch off the
RF signal at the input to the drive amplifier. This is achieved by a PIN switch attenuator
(D340, D350, D360).
Cyclic keying control is provided by additional circuitry consisting of several time
delay, ramp and gate stages:
• Q305, IC330 pins 5, 6 & 7
power ramping
• Q340, Q345
Tx-Reg. and Lock-Detect gate
• Q320, Q325, Q330, Q335
delay and PIN switch drive.
This is to allow the RF power circuits (both exciter and PA) to ramp up and down in a
controlled manner so that minimal adjacent channel interference is generated during
the transition.
R359, R342 and R344 form a 6dB attenuator to provide good VCO/drive amplifier isolation.
The output attenuator (R360, R362, R364, R366) assists in reducing exciter/PA interaction while also ensuring a good match for Q370.
Note:
Copyright TEL
The exciter provides a DC control signal to the PA via the RF coax. This is
injected via L390.
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C2.14
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T837 Circuit Operation
M830P-00
Copyright TEL
T837 Initial Tuning & Adjustment
M830P-00
C3.1
T837 Initial Tuning & Adjustment
Caution:
This equipment contains CMOS devices which are susceptible to damage from static charges. Refer to Section 1.2 in Part A for more information on anti-static procedures when handling these devices.
The following section describes the full tuning and adjustment procedure and provides
information on:
• channel programming
• synthesiser alignment
• modulator adjustment
• external reference frequency configuration (T837-2X-1021 only).
Unless otherwise specified, the term "PGM800Win" used in this and following sections refers to version 2.00 and later of the software.
Note:
Refer to Section 6 where the parts lists, grid reference index and diagrams will provide
detailed information on identifying and locating components and test points on the
main PCB. The parts list and diagrams for the VCO PCB are in Part E.
Section
Title
Page
3.1
Introduction
3.3
3.2
Channel Programming
3.3
3.3
Test Equipment Required
3.4
3.4
Synthesiser Alignment
3.5
3.5
Modulator Adjustment
3.6
3.6
External Reference Frequency Configuration
(T837-2X-1021 Only)
3.7
Figure
Title
Page
3.1
T837 Test Equipment Set-up
3.4
3.2
T837 100Hz VCO Control Line Wave Form
3.6
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C3.2
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T837 Initial Tuning & Adjustment
M830P-00
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T837 Initial Tuning & Adjustment
M830P-00
3.1
C3.3
Introduction
When you receive your T837 exciter it will be run up and working on a particular frequency (the "default channel")1. If you want to switch to a frequency that is within the
8MHz VCO switching range (i.e. ±4MHz from the factory programmed frequency), you
will need to:
• reprogram the exciter with the PGM800Win software (refer to the PGM800Win
programming kit and Section 3.2 below);
• carry out the modulator adjustment procedure described in Section 3.5.
However, if you want to switch to a frequency outside the 8MHz VCO switching range,
you will have to:
• reprogram the exciter with the PGM800Win software;
• carry out the synthesiser alignment procedure described in Section 3.4;
• carry out the modulator adjustment procedure described in Section 3.5.
3.2
Channel Programming
You can program up to 128 channel frequencies into the exciter’s EEPROM memory
(IC820) by using the PGM800Win software package and an IBM PC. You can also use
PGM800Win to select the exciter’s current operating frequency (or "default channel").
If the exciter is installed in a rack frame, you can program it via the programming port
in the speaker panel. However, you can also program the exciter before it is installed in
a rack frame as follows:
• by using a T800-01-0010 calibration test unit;
• via D-range 1.
If you do not use the T800-01-0010, you will have to connect the PC to the exciter via a
module programming interface (such as the T800-01-0004).
For a full description of the channel programming procedure, refer to the PGM800Win
programming software user’s manual.
1. Use the "Read Module" function in PGM800Win to find out what the default channel is.
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C3.4
T837 Initial Tuning & Adjustment
3.3
Test Equipment Required
M830P-00
You will need the following test equipment:
• computer with PGM800Win installed
• T800 programming kit
• module programming interface (e.g. T800-01-0004 - optional)
• 13.8V power supply
• digital multimeter
• function generator
• RF power meter
or modulation analyser
• frequency counter
• modulation meter
• oscilloscope (digital preferred)
• 20dB pad
Figure 3.1 shows a typical test equipment set-up.
+13.8V
Frequency
Counter
PSU
-Ve
20dB pad
Centre I/P
+5V
RF O/P
Modulation
Meter
Exciter
Data I/P
AF O/P
TTL
Function
Generator
Key
RF Power
Meter
Serial
Com
Oscilloscope
via module programming interface
(e.g. T800-01-0004)
PGM800Win
Figure 3.1 T837 Test Equipment Set-up
Note:
01/07/00
Although the T800-01-0010 calibration test unit can be used to program the
T837 paging exciter, it is not suitable for tuning and adjustment procedures
because of the different pin allocations of D-range 1 (PL100).
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T837 Initial Tuning & Adjustment
M830P-00
3.4
C3.5
Synthesiser Alignment
Ensure that the T837 has been programmed with the required frequencies using
PGM800Win software.
Select a channel using PGM800Win.
Connect a high impedance voltmeter to PL4-1 or the junction of L1 and R1 in the
VCO (this measures the synthesiser loop voltage).
Key the transmitter by earthing the Tx-Key line.
Tune VCO trimmer CV1 for a synthesiser loop voltage of 9V.
Check that the exciter output power is 800mW ±200mW (measured at the rear
panel N-type connector).
If required, measure and adjust the exciter output frequency as follows:
• apply +5V DC to pin 11 of D-range 1 (PL100) - this changes the mode of
operation to PLL so that the carrier frequency can be observed - and measure the output frequency at the rear panel N-type connector;
• adjust the trimmer on the TCXO (%X100) if required;
• remove the +5V DC from pin 11.
Caution:
Copyright TEL
This trimmer is susceptible to physical damage. Do not exert a downward force of more than 500g (1lb) when adjusting.
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C3.6
T837 Initial Tuning & Adjustment
3.5
Modulator Adjustment
M830P-00
Apply +5V DC to pin 12 (DATA input) of D-range 1.
Monitor the exciter output frequency and adjust RV102 (DC frequency offset) to
give an output frequency of Fcarrier + 4.5kHz.
Remove the +5V DC from pin 12 and apply a 100Hz 5Vp-p square wave to pin 12.
Monitor the signal at TP100 with an AC coupled oscilloscope set to 50mV/div.
and adjust RV101 (reference modulation) until the triangle wave amplitude is
minimised.
Change the frequency of the square wave to 600Hz.
Monitor the frequency deviation on the exciter output with a modulation meter
and adjust RV100 (VCO modulation) to obtain ±4.5kHz deviation.
Monitor the VCO control line at PL4-1 or the junction of L1 and R1 in the VCO
using an AC coupled oscilloscope set to at least 20mV/div.
Change the frequency of the square wave back to 100Hz and check that the control
line still has a good trapezoidal wave form with flat top and bottom.
Note 1:
You may have to readjust RV101 & RV100 alternately to achieve a square
wave on the VCO control line at both 600Hz and 100Hz with a deviation of
±4.5kHz. Figure 3.2 shows a typical 100Hz VCO control line wave form
with RV101 and RV100 set correctly.
Figure 3.2 T837 100Hz VCO Control Line Wave Form
Note 2:
If the lower cut off frequency of an AC coupled oscilloscope is too high,
excessive distortion may be introduced which will result in ‘sag’ on the
square wave displayed. Determine if this is a problem by directly monitoring the original square wave source and observe any sag. If there is sag,
switch the oscilloscope to DC and use a 10µF capacitor in series with the
oscilloscope probe (observing the correct polarity) to directly monitor the
VCO control line. Note that the trace settling time will be approximately
one minute.
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T837 Initial Tuning & Adjustment
M830P-00
3.6
C3.7
External Reference Frequency Configuration
(T837-2X-1021 Only)
When using an external reference frequency, you must set the onboard synthesiser’s reference frequency according to the frequency of the external reference. This is achieved
by placing resistors *%R240 - *%R247 in a pattern corresponding to a binary number
which represents the reference divider ratio.
If you are using a 10MHz external reference frequency, you need only carry out steps 4
and 5 in this section. You do not need to carry out steps 1, 2 and 3 because the T837 has
already been configured at the factory for a 10MHz external reference.
However, if you are using an external reference frequency other than 10MHz, you must
configure the internal synthesiser as described in steps 1, 2 and 3 before proceeding to
steps 4 and 5.
1.
Divide the external oscillator frequency by 100kHz.
2.
Convert the result to binary. You can use the following table to do this: select the
binary values in row three which add up to the result obtained in step 1, then
place a “1” in these positions and a “0” in the others.
MSB
3.
LSB
N7
N6
N5
N4
N3
N2
N1
N0
12810
6410
3210
1610
810
410
210
110
*%R240
*%R241
*%R242
*%R243
*%R244
*%R245
*%R246
*%R247
Where there is a “0” in the binary number, place a zero ohm resistor in the corresponding component location shown in the table. Where there is a “1”, leave an
open link.
The following example shows the resistor pattern for a 10MHz external reference frequency is calculated.
Example:
10MHz
100kHz
100
100
64 + 32 + 4
therefore
place resistors *%R240, *%R243, *%R244, *%R246
and *%R247 and leave all other links open
MSB
LSB
N7
N6
N5
N4
N3
N2
N1
N0
12810
6410
3210
1610
810
410
210
110
*%R240
*%R241
*%R242
*%R243
*%R244
*%R245
*%R246
*%R247
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01/07/00
C3.8
T837 Initial Tuning & Adjustment
M830P-00
4.
Connect the external reference frequency at a level of 0dBm to +10dBm/50Ω into
the external reference input and check that green LED *D116 lights.
5.
Measure the TCXO (%X100) AFC voltage at %IC160 pin 4 with a high impedance
voltmeter and adjust the TXCO trimmer (if necessary) to obtain 2.5V DC ±0.2V.
01/07/00
Copyright TEL
T837 Functional Testing
M830P-00
C4.1
T837 Functional Testing
Caution:
This equipment contains CMOS devices which are susceptible to damage from static charges. Refer to Section 1.2 in Part A for more information on anti-static procedures when handling these devices.
The following test procedures will confirm that the T837 has been tuned and adjusted
correctly and is fully operational.
Unless otherwise specified, the term "PGM800Win" used in this and following sections refers to version 2.00 and later of the software.
Note:
Refer to Figure 4.2 for the location of the main tuning and adjustment controls, and to
Section 3.3 for the test equipment set-up. Refer also to Section 6 where the parts lists,
grid reference index and diagrams will provide detailed information on identifying and
locating components and test points on the main PCB. The parts list and diagrams for
the VCO PCB are in Part E.
The following topics are covered in this section.
Section
Title
Page
4.1
Current Consumption
4.3
4.2
Output Power
4.3
4.3
Output Frequency
4.3
4.4
External Reference Frequency (T837-2X-1021 Only)
4.3
4.5
Timers
4.4
Figure
Title
Page
4.1
T837 Transmit Timers
4.4
4.2
T837 Main Tuning & Adjustment Controls
4.5
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C4.2
01/07/00
T837 Functional Testing
M830P-00
Copyright TEL
T837 Functional Testing
M830P-00
4.1
C4.3
Current Consumption
Connect the T837 to a 13.8V power supply.
Connect an RF power meter to the T837 output socket.
Check that the current in the 13.8V power cable is less than:
T837-2X-1020 T837-2X-1021 -
150mA
200mA.
Key the T837 by earthing the Tx-Key line (the carrier "On" LED should light).
Check that the current is less than 650mA.
4.2
Output Power
Connect an RF power meter to the T837 output socket.
Key the T837 by earthing the Tx-Key line.
Check that the output power is 800mW ±200mW.
4.3
Output Frequency
Connect the T837 output to a frequency counter via a 20dB attenuator pad.
Apply +5V DC to pin 11 of D-range 1 (PL100) - this changes the mode of operation
to PLL so that the carrier frequency can be observed - and measure the output frequency.
Adjust the TCXO (X100) (if required) to trim to the nominal frequency (±100Hz).
4.4
External Reference Frequency (T837-2X-1021 Only)
Connect the external reference frequency at a level of 0dBm to +10dBm/50Ω into
the external reference input and check that green LED *D116 lights.
Ensure that the onboard synthesiser’s reference frequency has been set
according to the frequency of the external reference (see Section 3.6).
Note:
Check the Lock-Detect signal level on pin 8 of D-range 1 (PL100) is as follows:
external reference frequency applied no external reference frequency applied -
Copyright TEL
0V (approx.)
4.5V (approx.).
01/07/00
C4.4
T837 Functional Testing
4.5
Timers
M830P-00
The transmit tail timer, transmit timeout timer and transmit lockout timer can all be set
from PGM800Win. The fields for setting these are found on the system information
page. These three timers operate as follows (refer also to Figure 4.1):
Timer
Function
Adjustment
Transmit Tail
Sets the tail time during which the
transmitter stays keyed after the external key source has been removed.
0-5 seconds in 100ms
stepsa
Transmit Timeout
Sets the maximum continuous transmission time. Once the timer has
timed out, the transmitter must be
keyed again, unless prevented by the
transmit lockout timer.
0-300 secondsb in 10
second steps
Transmit Lockout
Sets the period of time that must
elapse after a timeout before the transmitter can re-transmit. Once the timer
has timed out, the transmitter can be
keyed again.
0-60 seconds in 10
second steps
a. Adjustable in 20ms steps in PGM800Win version 2.12 and later.
b. Adjustable from 0 to 600 seconds in PGM800Win version 2.12 and later.
Tx-Enable
On
Tx-Reg.
Tx-Enable
Tail Time
On
Tx-Reg.
Lockout Time
Timeout
Time
Figure 4.1 T837 Transmit Timers
01/07/00
Copyright TEL
T837 Fault Finding
M830P-00
C5.1
T837 Fault Finding
Caution:
This equipment contains CMOS devices which are susceptible to damage from static charges. Refer to Section 1.2 in Part A for more information on anti-static procedures when handling these devices.
The following test procedures and fault finding flow charts may be used to help locate a
hardware problem, however they are by no means a complete fault finding procedure.
If you still cannot trace the fault after progressing through them in a logical manner,
contact your nearest Tait Dealer or Customer Service Organisation. If necessary, you
can get additional technical help from Customer Support, Radio Systems Division, Tait
Electronics Ltd, Christchurch, New Zealand (full contact details are on page 2).
Unless otherwise specified, the term "PGM800Win" used in this and following sections refers to version 2.00 and later of the software.
Note:
Refer to Section 6 where the parts lists, grid reference index and diagrams will provide
detailed information on identifying and locating components and test points on the
main PCB. The parts list and diagrams for the VCO PCB are in Part E.
The following topics are covered in this section:
Section
Title
Page
5.1
Visual Checks
5.3
5.2
Component Checks
5.3
5.3
Front Panel LED Indicator
5.3
5.4
DC Checks
5.4
5.4.1
Power Rails
5.4
5.4.2
VCO Locking
5.4
RF Checks
5.5
Output Power
5.5
5.6
PGM800Win Generated Errors
5.6
5.7
Fault Finding Charts
5.7
5.7.1
5.7.1.1
5.7.1.2
Microcontroller
Basic Checks
Serial Communications
5.7
5.7
5.8
5.7.2
Regulator
5.9
5.7.3
Synthesiser
5.10
5.7.4
Exciter Drive Amplifier
5.13
5.5
5.5.1
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C5.2
T837 Fault Finding
Figure
5.1
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M830P-00
Title
RF Diode Probe Circuit
Page
5.5
Copyright TEL
T837 Fault Finding
M830P-00
5.1
C5.3
Visual Checks
Remove the covers from the T837 and inspect the PCB for damaged or broken components, paying particular attention to the surface mounted devices (SMD's).
Check for defective solder joints. If repair or replacement is considered necessary, refer
to Section 3 of Part A.
5.2
Component Checks
If you suspect a transistor is faulty, you can assess its performance by measuring the forward and reverse resistance of the junctions. Unless the device is completely desoldered, first make sure that the transistor is not shunted by some circuit resistance. Use a
good quality EVM (e.g. Fluke 75) for taking the measurements (or a 20k ohm/V or better multimeter, using only the medium or low resistance ranges).
The collector current drawn by multi-junction transistors is a further guide to their performance.
If an IC is suspect, the most reliable check is to measure the DC operating voltages. Due
to the catastrophic nature of most IC failures, the pin voltages will usually be markedly
different from the recommended values in the presence of a fault. The recommended
values can be obtained from either the circuit diagram or the component data catalogue.
5.3
Front Panel LED Indicator
The green "Supply" LED on the T837 front panel will flash according to the conditions
described in the following table:
Flash Rate
Condition
fast
(D sec. on/D sec. off
approx.)
T837 is linked with PGM800Win
unequal
(D sec. on/1 sec. off
approx.)
microcontroller has detected an
internal communications error refer to Section 5.7.1
Where two or more conditions occur at the same time, the precedence is in the order
shown above (i.e. T837 linked has the highest priority, followed by internal error).
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01/07/00
C5.4
T837 Fault Finding
5.4
DC Checks
5.4.1
Power Rails
M830P-00
Refer to the top side PCB layout diagram in Section 6 or Figure 4.2 for test point locations, and to the regulator fault finding chart (Section 5.7.2) for fault diagnosis.
Check the 13.8V (TP601) and 9V (TP602) supplies at their test points in the regulator compartment with a DMM.
Check the 5V (TP604) and 20V (TP603) rails at their respective test points in the
regulator compartment.
Check that Tx-Reg. (TP310 in the paging modulator compartment) comes up to
8.8V when the exciter is keyed.
Check the +5V digital regulator output (TP607 in the regulator compartment).
Check for short circuits.
5.4.2
VCO Locking
Key the exciter.
Using a DMM, monitor the VCO control voltage at PL4-1 or the junction of L1 and
R1 on the VCO PCB.
If the synthesiser is locked and the VCO aligned, the voltage at this point should
be between 5 and 13V.
If the VCO is not locked, refer to the synthesiser fault finding chart (Section 5.7.3).
01/07/00
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T837 Fault Finding
M830P-00
5.5
C5.5
RF Checks
In-circuit RF levels may be measured with an RF probe on which the earth lead has been
shortened to a minimum (i.e. 13mm). Refer to the circuit diagrams for typical levels.
Figure 5.1 shows a suitable RF probe circuit.
1n
Probe
Coax
10k
DC to DVM or
Oscilloscope
1N6263
1n
100k
Earthing Clip
This unit is not suitable for use on high power RF circuits.
Figure 5.1 RF Diode Probe Circuit
5.5.1
Output Power
Refer to the exciter drive amplifier fault finding chart (Section 5.7.4).
Ensure that the VCO locks (refer to Section 5.4.2).
Connect the exciter output to a power meter and key the exciter.
Check that the output power is between 600 and 1000mW.
Note:
Copyright TEL
If the synthesiser is out of lock, the lock detector (synthesiser IC740 and
comparator IC750) will prevent the RF signal from reaching the PA by
switching the supply to the exciter amplifier (Q340, Q345).
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C5.6
T837 Fault Finding
5.6
PGM800Win Generated Errors
M830P-00
The following errors are those most likely to occur using PGM800Win. Refer to the
PGM800Win software user’s manual for a complete list of error messages.
Channel Switch Set
The programmed default channel change was not accepted by the base station because a
channel is selected externally. Try turning the external channel switch off to change the
default channel in PGM800Win.
Synth Out Of Lock
The synthesiser received incorrect data, or the data was corrupted. Enter a frequency
within the VCO switching range, or tune the VCO.
Internal Error
Data could not be read from the base station due to an internal error. Check for shorts
or open circuits on the SDA, SCK, SYNTH and EPOT lines. The SDA, SCK and SYNTH
are normally high.
Write/Read To An Unlinked Module
The link to the module does not exist. Undefined error.
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T837 Fault Finding
M830P-00
C5.7
5.7
Fault Finding Charts
Note:
The standard test point designations used in this section are as follows:
TP601
TP602
TP603
TP604
13.8V
9V
20V
5V
5.7.1
Microcontroller (IC810)
5.7.1.1
Basic Checks
Is the 12.8MHz clock
present on IC810 pin 21
(microcontroller)?
Check IC740
(synthesiser).
Replace
IC810.
Is pin 30
pulsing?
Replace
IC650.
Pulsing
Check the
state of
pin 10.
High or open circuit
Low
Check state of
pins 36 to 43.
*digital storage oscilloscope
Pulsing
Static high/low
Replace IC810.
Copyright TEL
Use a DSO* to check
operation of IC650
(i.e. active high
pulse at power up).
Check state
of pin 35.
High
Replace
IC810.
Low/floating
Correct the fault causing
pin 35 to be low/floating.
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C5.8
T837 Fault Finding
5.7.1.2
Serial Communication
Disconnect the
programming lead.
Is IC810 pin 11 high?
(microcontroller)
M830P-00
Low/floating
Check pin state.
Check the transistor
interface circuitry.
Noise
on pin
Check the SERIAL-COM
and AUDIO-1/2 links.
Connect the programming
lead and use PGM800Win
to read the rack/radio.
Check I/O pad P810
with a DSO*.
Does it swing from
0 to 5V?
*digital storage
oscilloscope
Check the transistor
interface circuitry
and/or replace the
programming lead.
Use PGM800Win
to send a POLL
command to the
radio.
Check IC810 pin 13
with a DSO. Is there
a response from IC810 after
a poll command is sent?
Replace
IC810.
Check the transistor
interface circuitry
and/or replace the
programming lead.
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T837 Fault Finding
M830P-00
5.7.2
C5.9
Regulator
Check for
overheating
components &
short circuits.
13.8V present on
IC630 pin 3?
Check continuity
from pin 9 of
D-range 1.
5.3V present on
IC630 pin 1?
Replace IC630.
9.0V present
on TP602?
Check Q630,
Q620 & IC640.
20V present
on TP603?
Check Q660 is
switching at
approx. 150kHz.
+5V present on
IC610 pin 2?
Check R615.
Replace IC610.
Key Tx.
8.8V present
on Tx reg. TP305?
Regulators OK.
0V present
on Q860 collector?
Replace Q610.
0.6V present on
Q860 base?
Check Q860 and
associated circuitry.
Regulators OK.
Check microcontroller
section.
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01/07/00
C5.10
T837 Fault Finding
5.7.3
Synthesiser
M830P-00
Refer to the synthesiser circuit diagram (sheet 7) in Section 6 and the VCO circuit diagram in Part E.
No VCO RF output.
VCO out of lock.
9V present at
VCO Q4/Q5?
Check Tx reg.,
Q610 & 9V reg.
+5V present at
IC710 & IC740?
Check 5V reg. &
supply resistor
to each IC.
DC V present
at Q4 & Q5?
Check biasing
resistors, Q4 & Q5.
20V present
on IC750 pin 8?
8.3V present
at VCO?
9V present on
Q795 divider buffer?
DC V present at
VCO, Q1, Q2 & Q3?
20V inverter
supply faulty.
Check Q5 C
multiplier
(synth).
Check 9V supply.
Check biasing
resistors, Q1,
Q2 & Q3.
DC V present
on Q795 emitter?
Check biasing
resistors & Q795.
Capacitors OK?
Check for cracks,
shorts, etc.
Replace
if faulty.
Replace VCO.
Does VCO trimmer
adjust for stable
control line
between 5 & 13V?
VCO freq. correct?
Recheck
programming
via PGM800Win.
Check VCO tuning
caps & trimmer.
VCO trimmer
freq. range OK?
Does VCO trimmer
adjust for required
frequency range
between 5 & 13V?
Check #C5, #C3, #C4,
CV1 & D1-D4 in VCO.
Is 8MHz VCO range
achieved between
5 & 13V?
Synthesiser OK.
VCO OK.
Continued on the next page
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Copyright TEL
T837 Fault Finding
M830P-00
C5.11
Continued from previous page
Check microcontroller
section (IC810).
Replace synthesiser
(IC740).
Check phase detector output
pins (IC740 pins 3 & 4).
Are there very narrow pulses
(~50ns) at the reference frequency?
(i.e. 5kHz : 200µs period
6.25kHz : 160µs period)
*See Note below.
Check programming.
Check serial bus
when programming
i.e. clock/data/enable
activity (IC740 pins
18, 19 & 17).
Programming and
serial bus OK?
Is reference
clock present
at IC740 pin 20
(12.8MHz >4.5Vpp)?
Is the charge pump bias
voltage at the base of
Q760 & Q780 between
3.5 and 5V? (5V when locked)
Check Q760, Q780,
R766 & C765.
Check IC710, R710,
C712, C713, C733.
Is reference
clock present
at IC710 pins 5 & 13
(12.8MHz >4.5Vpp)?
Is the voltage on C762,
R760, and R758 9V ±0.2V?
Check R762 & C762.
Check line from
modulator section to
synthesiser section.
Is reference
clock present
at IC102 pin 6
in modulator section
(12.8MHz >4.0Vpp)?
Is the charge pump voltage
on Q790 gate between
3 and 8.5V? (6.5V ±0.2V locked)
Check charge pump components
(Q775 & Q780) and Q790.
Check VCXO (X101)
and buffers (IC102).
Is the loop filter reference
voltage at C772 (+) 6.5V ±0.2V?
Check C772, R774, R772,
C770, R763 & Q790.
Check loop filter components
R775, C774, C776, R510,
C505, IC750. Is the supply
to IC750 +20V +4, -2V?
Check regulator circuitry.
Check the signal path from
the VCO to synthesiser.
Measure the frequency from
the VCO at IC740 pin 11 using
a frequency counter.
No signal
Check VCO.
Signal
Is the level >-10dBm?
Does the frequency adjust
as the VCO trimmer is
adjusted (out of lock)?
Replace synthesiser
(IC740).
Copyright TEL
Check divider buffer
circuit (Q795) and bias
voltages on Q795 emitter
(1.3V ±0.2V).
*Note:
When locked, both of these
are very narrow (~50ns).
If unlocked, one will be
very narrow (~50ns),
and the other wide (>15µs).
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C5.12
T837 Fault Finding
M830P-00
Noisy synth;
poor residual FM.
VCO phase locked?
5-13V present on
control line?
Go to B.
Correct DC V
present on Q1 VCO?
Check inductors,
biasing resistors
& Q1.
Loop filter &
components around
op. amp. (IC750) OK?
Replace if faulty.
Isolate modulation
on VCO; still noisy?
Trace modulator fault.
Change trimmer;
still noisy?
Change Q1;
still noisy?
Change TCXO;
still noisy?
Change varactors;
still noisy?
Replace VCO
assembly.
Synthesiser OK.
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T837 Fault Finding
M830P-00
5.7.4
C5.13
Exciter Drive Amplifier
Key exciter &
lock synthesiser.
3.5V at Q365 collector?
10.5V at Q370 collector?
10.5V at Q315
collector?
Check
power rails.
>5V present on
IC330 pin 1?
Check IC330,
R324 & R326.
Check Q310
& Q315.
>2.2V RF at
R359/R342?
Check VCO.
>1.1V RF at
R342/R344?
Check attenuator pad
R359, R342, R344.
>0.5V RF at
Q365 base?
Check C352, C355, C358,
Q365, L345, L346, D340,
D350, & D360.
>6V RF at
C361, L360?
Check Q365.
>1.5V RF at
Q370 base?
Check signal path
between Q365 & Q370.
>6V RF at
Q370 collector?
Check Q370.
Drive amp. OK.
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01/07/00
C5.14
01/07/00
T837 Fault Finding
M830P-00
Copyright TEL
T837 PCB Information
M830P-00
C6.1.1
T837 PCB Information
Caution:
This equipment contains CMOS devices which are susceptible to damage from
static charges. Refer to Section 1.2 in Part A for more information on anti-static
procedures when handling these devices.
This section provides the following information on the T837 paging exciter:
• parts lists
• grid reference index
• PCB layouts
• circuit diagrams.
Section
Title
6.1
Introduction
6.2
T837 Paging Exciter PCB
Copyright TEL
IPN
Page
6.1.3
220-01585-01
6.2.1
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C6.1.2
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T837 PCB Information
M830P-00
Copyright TEL
T837 PCB Information
M830P-00
6.1
C6.1.3
Introduction
Product Type Identification
You can identify the exciter type by checking the product code printed on a label on the rear of the
chassis (product codes are explained in Section 1.3 in this Part of the manual, and Figure 1.1 in Part
A shows typical labels). You can further verify the product type by checking the placement of an
SMD resistor in the table that is screen printed onto the top side of the PCB, similar to the example
drawn below. In this example, the resistor indicates that the product was built as a T837-20-XXXX.
837837837PRODUCT TYPE
Note:
PRODUCT TYPE
837-10
837-20
837-13
837-23
837-15
837-25
The only function of this resistor is to indicate the product type. It has no effect on the
circuitry or operation of the exciter.
PCB Identification
All PCBs are identified by a unique 10 digit “internal part number” (IPN), e.g. 220-12345-00, which
is screen printed onto the PCB (usually on the top side), as shown in the example below:
The last 2 digits of this number define the issue status, which starts at 00 and increments through 01,
02, 03, etc. as the PCB is updated. Some issue PCBs never reach full production status and are therefore not included in this manual. A letter following the 10 digit IPN has no relevance in identifying
the PCB for service purposes.
Note:
Copyright TEL
It is important that you identify which issue PCB you are working on so that you can
refer to the appropriate set of PCB information.
01/07/00
C6.1.4
T837 PCB Information
M830P-00
Parts Lists
The 10 digit numbers (000-00000-00) in this Parts List are “internal part numbers” (IPNs). We can
process your spare parts orders more efficiently and accurately if you quote the IPN and provide a
brief description of the part.
The components listed in this parts list are divided into two main types: those with a circuit reference (e.g. C2, D1, R121, etc.) and those without (miscellaneous and mechanical).
Those with a circuit reference are grouped in alphabetical order and then in numerical order within
each group. Each component entry comprises three or four columns, as shown below:
circuit reference lists components
in alphanumeric
order
variant column indicates that this is
a variant component
which is fitted only to
the product type listed
description gives a brief description
of the component
Internal Part Number order the component
by this number
The mechanical and miscellaneous section lists the variant and common parts in IPN order.
Parts List Amendments
At the front of the parts list is the Parts List Amendments box (an example of which is shown
below). This box contains a list of component changes which took place after the parts list and diagrams in this section were compiled. These changes (e.g. value changes, added/deleted components, etc.) are listed by circuit reference in alphanumeric order and supersede the information
given in the parts list or diagrams. Components without circuit references are listed in IPN order.
The number in brackets at the end of each entry refers to the Tait internal Change Order document.
IPN of new
component
Change Order
number
Parts List Amendments
R306
Changed from 180Ω to 560Ω (036-13560-00) to increase sensitivity (71003).
circuit reference
or IPN
description
of change
01/07/00
Copyright TEL
T837 PCB Information
M830P-00
C6.1.5
Variant Components
A variant component is one that has the same circuit reference but different value or specification in
different product types. Where two products share the same PCB, the term “variant” is also used to
describe components unplaced in one product. Variant components have a character prefix, such as
“&”, “=” or “#”, before the circuit reference (e.g. &R100).
The table below explains the variant prefixes used in T800 Series II products:
If the variant prefix is. . .
the component will. . .
change according to channel spacing
change according to frequency stability
change according to frequency range
change or be placed/unplaced for special applications
be unplaced in one product
(where two products share the same PCB)
Grid Reference Index
This section contains a component grid reference index to help you find components and labelled
pads on the PCB layouts and circuit diagrams. This index lists the components and pads in alphanumeric order, along with the appropriate alphanumeric grid references, as shown below:
components listed
in alphanumeric order
PCB layout
reference
circuit diagram
reference
component location
on the sheet
sheet number
component location
on the layer
layer number 1 = top side layer
2 = bottom side layer
Copyright TEL
01/07/00
C6.1.6
T837 PCB Information
M830P-00
Using CAD Circuit Diagrams
Reading a CAD circuit diagram is similar to reading a road map, in that both have an alphanumeric
border. The circuit diagrams in this manual use letters to represent the horizontal axis, and numbers for the vertical axis. These circuit diagram “grid references” are useful in following a circuit
that is spread over two or more sheets.
When a line representing part of the circuitry is discontinued, a reference will be given at the end of
the line to indicate where the rest of the circuitry is located, as shown below. The first digit refers to
the sheet number and the last two characters refer to the location on that sheet of the continuation of
the circuit (e.g. 1R3).
DISCRIMINATOR
1R3
2R9
2R9
8A2
C371
%R338
100
10U
R339
100K
C369
100P
these grid references
show where the circuit
is continued
01/07/00
C301
4N7
R303
L310
33U
4R4
G S
IF-SIG
12
Copyright TEL
T837 PCB Information
M830P-00
6.2
C6.2.1
T837 Paging Exciter PCB
This section contains the following information.
IPN
220-011585-01
Copyright TEL
Section
Page
Parts List
6.2.5
Mechanical & Miscellaneous Parts
6.2.9
Grid Reference Index
6.2.10
PCB Layout - Top Side
6.2.13
PCB Layout - Bottom Side
6.2.14
Exciter Overview Diagram
6.2.15
Low Speed Paging Modulator Circuit Diagram
6.2.16
Exciter Circuit Diagram
6.2.17
VCO Section Circuit Diagram
6.2.19
Regulators Circuit Diagram
6.2.20
Synthesiser Circuit Diagram
6.2.21
Microcontroller Circuit Diagram
6.2.22
Harmonic Filter Circuit Diagram
6.2.23
01/07/00
C6.2.2
01/07/00
T837 PCB Information
M830P-00
Copyright TEL
IPN 220-01585-01
M830P-00
T837 PCB Information
C6.2.3
T837 Parts List (IPN 220-01585-01)
How To Use This Parts List
The components listed in this parts list are divided into two main types: those with a circuit reference (e.g. C2, D1, R121, etc.) and
those without (miscellaneous and mechanical).
Those with a circuit reference are grouped in alphabetical order and then in numerical order within each group. Each component
entry comprises three or four columns: the circuit reference, variant (if applicable), IPN and description. A number in the variant column indicates that this is a variant component which is fitted only to the product type listed. Static sensitive devices are indicated by
an (S) at the start of the description column.
The miscellaneous and mechanical section lists the variant and common parts in IPN order. Where possible, a number in the legend
column indicates their position in the mechanical assembly drawing.
The Parts List Amendments box below lists component changes that took place after the parts list and diagrams in this section were
compiled. These changes (e.g. value changes, added/deleted components, etc.) are listed by circuit reference in alphanumeric order
and supersede the information given in the parts list or diagrams. Components without circuit references are listed in IPN order.
Parts List Amendments
There were no amendments to the parts list at the time of publication.
Copyright TEL
01/07/00
IPN 220-01585-01
C6.2.4
T837 PCB Information
M830P-00
Parts List Amendments - Continued
This page is provided for entering future amendments to the parts list.
01/07/00
Copyright TEL
IPN 220-01585-01
T837 PCB Information
M830P-00
Ref
Note:
Var
IPN
Description
The T837-2X-1020 and T837-2X-1021 share the same
basic design and are built on the same PCB. However,
there are a number of special variant components in
these products.
The “*” variant prefix is used to indicate those components which are placed only in the T837-2X-1021.
The “%” prefix indicates components which are placed
in all product types, but may have different values in
each product type.
The “*%” prefixes indicate components which are
optional in the T837-2X-1021 only, and not placed at all
in the T837-2X-1020.
C100
C101
C102
C103
C104
C105
C106
*C107
*C107
C108
C109
*C110
*C110
*C111
*C111
C112
%C113
%C113
%C113
%C113
C115
*C122
*C122
C123
*C124
*C124
%C125
%C125
*C126
*C126
*C127
*C127
%C128
%C128
%C128
%C128
%C129
%C129
%C129
%C129
*C130
*C130
*C131
*C131
*C132
*C132
*C133
*C133
*C134
*C134
*C135
*C135
*%C136
*%C136
*%C136
%C137
%C137
%C137
%C137
C138
C139
*C140
*C140
C141
C142
*C143
*C143
C144
*C145
*C145
*C146
*C146
20-1021
26-1021
20-1021
26-1021
20-1021
26-1021
20-1020
20-1021
26-1020
26-1021
20-1021
26-1021
20-1021
26-1021
20-1020
20-1021
20-1021
26-1021
20-1021
26-1021
20-1020
20-1021
26-1020
26-1021
20-1020
20-1021
26-1020
26-1021
20-1021
26-1021
20-1021
26-1021
20-1021
26-1021
20-1021
26-1021
20-1021
26-1021
20-1021
26-1021
20-1021
26-1020
26-1021
20-1020
20-1021
26-1020
26-1021
20-1021
26-1021
20-1021
26-1021
20-1021
26-1021
20-1021
26-1021
Copyright TEL
014-08100-00
014-08100-00
015-24100-08
015-24100-08
015-24100-08
015-24100-08
015-24100-08
015-25470-08
015-25470-08
015-21820-02
015-22470-01
015-25100-08
015-25100-08
015-24100-08
015-24100-08
015-24100-08
015-25100-08
015-25100-08
015-24680-08
015-24680-08
015-21820-02
015-25100-08
015-25100-08
015-24100-08
015-24100-08
015-24100-08
015-24220-08
015-24220-08
015-24100-08
015-24100-08
015-25100-08
015-25100-08
015-24100-08
015-24100-08
015-24100-08
015-24100-08
015-25220-08
015-25220-08
015-24220-08
015-24220-08
014-08100-00
014-08100-00
015-25100-08
015-25100-08
014-07470-01
014-07470-01
015-24470-08
015-24470-08
013-06100-10
013-06100-10
015-24470-08
015-24470-08
015-24100-08
015-24100-08
015-24100-08
036-10000-00
015-24680-08
015-24680-08
015-24680-08
015-24330-08
015-24330-08
015-25100-08
015-25100-08
015-24220-08
015-24220-08
015-25100-08
015-25100-08
015-23100-01
014-07470-01
014-07470-01
014-08100-00
014-08100-00
CAP TANT CHIP 10M 16VW +-20%
CAP TANT CHIP 10M 16VW +-20%
CAP CER 0805 1N 10% X7R 50V
CAP CER 0805 1N 10% X7R 50V
CAP CER 0805 1N 10% X7R 50V
CAP CER 0805 1N 10% X7R 50V
CAP CER 0805 1N 10% X7R 50V
CAP CER 0805 47N 10% X7R 50V
CAP CER 0805 47N 10% X7R 50V
CAP 0805 8P2 0.1 NPO 50V
CAP CER 0805 47P 5% NPO 50V
CAP CER 0805 10N 10% X7R 50V
CAP CER 0805 10N 10% X7R 50V
CAP CER 0805 1N 10% X7R 50V
CAP CER 0805 1N 10% X7R 50V
CAP CER 0805 1N 10% X7R 50V
CAP CER 0805 10N 10% X7R 50V
CAP CER 0805 10N 10% X7R 50V
CAP CER 0805 6N8 10% X7R 50V
CAP CER 0805 6N8 10% X7R 50V
CAP 0805 8P2 0.1 NPO 50V
CAP CER 0805 10N 10% X7R 50V
CAP CER 0805 10N 10% X7R 50V
CAP CER 0805 1N 10% X7R 50V
CAP CER 0805 1N 10% X7R 50V
CAP CER 0805 1N 10% X7R 50V
CAP CER 0805 2N2 10% X7R 50V
CAP CER 0805 2N2 10% X7R 50V
CAP CER 0805 1N 10% X7R 50V
CAP CER 0805 1N 10% X7R 50V
CAP CER 0805 10N 10% X7R 50V
CAP CER 0805 10N 10% X7R 50V
CAP CER 0805 1N 10% X7R 50V
CAP CER 0805 1N 10% X7R 50V
CAP CER 0805 1N 10% X7R 50V
CAP CER 0805 1N 10% X7R 50V
CAP CER 0805 22N 10% X7R 50V
CAP CER 0805 22N 10% X7R 50V
CAP CER 0805 2N2 10% X7R 50V
CAP CER 0805 2N2 10% X7R 50V
CAP TANT CHIP 10M 16VW +-20%
CAP TANT CHIP 10M 16VW +-20%
CAP CER 0805 10N 10% X7R 50V
CAP CER 0805 10N 10% X7R 50V
CAP 4U7 ’B’CASE 25V +-10% 267
CAP 4U7 ’B’CASE 25V +-10% 267
CAP CER 0805 4N7 10% X7R 50V
CAP CER 0805 4N7 10% X7R 50V
CAP SMD PPS 100N 100V 10%
CAP SMD PPS 100N 100V 10%
CAP CER 0805 4N7 10% X7R 50V
CAP CER 0805 4N7 10% X7R 50V
CAP CER 0805 1N 10% X7R 50V
CAP CER 0805 1N 10% X7R 50V
CAP CER 0805 1N 10% X7R 50V
RES M/F 0805 ZERO OHM
CAP CER 0805 6N8 10% X7R 50V
CAP CER 0805 6N8 10% X7R 50V
CAP CER 0805 6N8 10% X7R 50V
CAP CER 0805 3N3 10% X7R 50V
CAP CER 0805 3N3 10% X7R 50V
CAP CER 0805 10N 10% X7R 50V
CAP CER 0805 10N 10% X7R 50V
CAP CER 0805 2N2 10% X7R 50V
CAP CER 0805 2N2 10% X7R 50V
CAP CER 0805 10N 10% X7R 50V
CAP CER 0805 10N 10% X7R 50V
CAP CER 0805 100P 5% NPO 50V
CAP 4U7 ’B’CASE 25V +-10% 267
CAP 4U7 ’B’CASE 25V +-10% 267
CAP TANT CHIP 10M 16VW +-20%
CAP TANT CHIP 10M 16VW +-20%
C6.2.5
Ref
Var
IPN
Description
*C147
*C147
C148
C149
C150
C151
C152
C153
C154
C155
C156
*C157
*C157
C158
C159
C160
C161
C162
C163
C164
*C165
*C165
C166
C167
C168
*C169
*C169
C170
*C171
*C171
*C171
C172
*C173
*C173
*C173
C301
C304
C307
C309
C310
C313
C317
C318
C319
C325
C328
C330A
C330B
C331
C334
C337
C340
C343
C346
C349
C352
C355
C358
C361
C376
C379
C382
C383
C384
C385
C388
C390
C391
C392
C393
C394
C395
C397
C398
C503
C505
C510
C513
C535
C550
C605
C610A
C610B
C611A
C611B
C623
C625
C626
C628
C630
C631
C634
C636
C638
C640
C660
C665
C670
20-1021
26-1021
015-06100-08
015-06100-08
014-08100-00
015-25100-08
014-08100-00
015-25100-08
013-06470-00
013-06470-00
015-25100-08
015-06100-08
015-25100-08
015-25100-08
015-25100-08
015-25100-08
014-08100-00
015-25100-08
014-08100-00
015-25100-08
015-23100-01
014-08100-00
015-25100-08
015-25100-08
015-25100-08
014-08100-00
014-08100-00
014-08100-00
014-08100-00
014-08100-00
014-08100-00
014-08100-00
014-08100-00
015-06100-08
015-06100-08
015-06100-08
015-06100-08
015-24470-08
015-24100-08
015-25100-08
015-23680-08
015-24100-08
015-24100-08
015-23100-01
015-23100-01
015-24100-08
015-24100-08
015-25470-08
015-25100-08
014-08100-03
015-24100-08
014-07470-04
015-24100-08
015-24100-08
015-24100-08
015-24100-08
015-23150-01
015-24100-08
015-22330-01
015-22820-01
015-24100-08
015-04100-04
015-04100-04
015-24100-08
015-24100-08
015-22470-01
015-24100-08
015-24100-08
015-25100-08
015-21820-02
015-25220-08
015-06100-08
015-24100-08
015-24100-08
015-24100-08
015-24100-08
015-24470-08
015-06100-08
015-25220-08
015-25100-08
015-06100-08
014-08220-01
015-23120-01
015-25100-08
014-09100-00
014-09100-00
015-25100-08
015-23120-01
020-09470-07
015-24470-08
015-24100-08
015-06100-08
015-06100-08
014-08100-00
015-06100-08
015-23120-01
015-24100-08
015-06100-08
014-08100-03
014-07330-10
CAP CER 1206 100N 10% X7R 50V
CAP CER 1206 100N 10% X7R 50V
CAP TANT CHIP 10M 16VW +-20%
CAP CER 0805 10N 10% X7R 50V
CAP TANT CHIP 10M 16VW +-20%
CAP CER 0805 10N 10% X7R 50V
CAP SMD POLYESTER 470N 63V 10%
CAP SMD POLYESTER 470N 63V 10%
CAP CER 0805 10N 10% X7R 50V
CAP CER 1206 100N 10% X7R 50V
CAP CER 0805 10N 10% X7R 50V
CAP CER 0805 10N 10% X7R 50V
CAP CER 0805 10N 10% X7R 50V
CAP CER 0805 10N 10% X7R 50V
CAP TANT CHIP 10M 16VW +-20%
CAP CER 0805 10N 10% X7R 50V
CAP TANT CHIP 10M 16VW +-20%
CAP CER 0805 10N 10% X7R 50V
CAP CER 0805 100P 5% NPO 50V
CAP TANT CHIP 10M 16VW +-20%
CAP CER 0805 10N 10% X7R 50V
CAP CER 0805 10N 10% X7R 50V
CAP CER 0805 10N 10% X7R 50V
CAP TANT CHIP 10M 16VW +-20%
CAP TANT CHIP 10M 16VW +-20%
CAP TANT CHIP 10M 16VW +-20%
CAP TANT CHIP 10M 16VW +-20%
CAP TANT CHIP 10M 16VW +-20%
CAP TANT CHIP 10M 16VW +-20%
CAP TANT CHIP 10M 16VW +-20%
CAP TANT CHIP 10M 16VW +-20%
CAP CER 1206 100N 10% X7R 50V
CAP CER 1206 100N 10% X7R 50V
CAP CER 1206 100N 10% X7R 50V
CAP CER 1206 100N 10% X7R 50V
CAP CER 0805 4N7 10% X7R 50V
CAP CER 0805 1N 10% X7R 50V
CAP CER 0805 10N 10% X7R 50V
CAP CER 0805 680P 10% X7R 50V
CAP CER 0805 1N 10% X7R 50V
CAP CER 0805 1N 10% X7R 50V
CAP CER 0805 100P 5% NPO 50V
CAP CER 0805 100P 5% NPO 50V
CAP CER 0805 1N 10% X7R 50V
CAP CER 0805 1N 10% X7R 50V
CAP CER 0805 47N 10% X7R 50V
CAP CER 0805 10N 10% X7R 50V
CAP TANT SMD 10U 35V 20%
CAP CER 0805 1N 10% X7R 50V
CAP TANT SMD 4U7 50V 20%
CAP CER 0805 1N 10% X7R 50V
CAP CER 0805 1N 10% X7R 50V
CAP CER 0805 1N 10% X7R 50V
CAP CER 0805 1N 10% X7R 50V
CAP CER 0805 150P 5% NPO 50V
CAP CER 0805 1N 10% X7R 50V
CAP CER 0805 33P 5% NPO 50V
CAP CER 0805 82P 5% NPO 50V
CAP CER 0805 1N 10% X7R 50V
CAP CER 1206 1N 10% X7R 50V
CAP CER 1206 1N 10% X7R 50V
CAP CER 0805 1N 10% X7R 50V
CAP CER 0805 1N 10% X7R 50V
CAP CER 0805 47P 5% NPO 50V
CAP CER 0805 1N 10% X7R 50V
CAP CER 0805 1N 10% X7R 50V
CAP CER 0805 10N 10% X7R 50V
CAP 0805 8P2 0.1 NPO 50V
CAP CER 0805 22N 10% X7R 50V
CAP CER 1206 100N 10% X7R 50V
CAP CER 0805 1N 10% X7R 50V
CAP CER 0805 1N 10% X7R 50V
CAP CER 0805 1N 10% X7R 50V
CAP CER 0805 1N 10% X7R 50V
CAP CER 0805 4N7 10% X7R 50V
CAP CER 1206 100N 10% X7R 50V
CAP CER 0805 22N 10% X7R 50V
CAP CER 0805 10N 10% X7R 50V
CAP CER 1206 100N 10% X7R 50V
CAP TANT 22UF 10V 276MSER
CAP CER 0805 120P 5% NPO 50V
CAP CER 0805 10N 10% X7R 50V
CAP TANT SMD 100U 16V 20%
CAP TANT SMD 100U 16V 20%
CAP CER 0805 10N 10% X7R 50V
CAP CER 0805 120P 5% NPO 50V
CAP ELEC RADL 470M 16V 20% 3.5
CAP CER 0805 4N7 10% X7R 50V
CAP CER 0805 1N 10% X7R 50V
CAP CER 1206 100N 10% X7R 50V
CAP CER 1206 100N 10% X7R 50V
CAP TANT CHIP 10M 16VW +-20%
CAP CER 1206 100N 10% X7R 50V
CAP CER 0805 120P 5% NPO 50V
CAP CER 0805 1N 10% X7R 50V
CAP CER 1206 100N 10% X7R 50V
CAP TANT SMD 10U 35V 20%
CAP TANT SMD 3U3 35V 10%
20-1021
26-1021
20-1021
26-1021
20-1021
26-1021
20-1021
26-1020
26-1021
20-1021
26-1020
26-1021
01/07/00
IPN 220-01585-01
T837 PCB Information
C6.2.6
Ref
Var
C673
C677
C681
C684
C687
C690
C693
C706
C708
C709
C710
C712
C713
C714
C733
C735
C736
C740A
C740B
C741A
C741B
C742A
C742B
C743
C745
C750
C757
C759
C761
C762
C764
C765
C767
C769
C770
C772
C774
C776
C782
C784
C786
C788
C790
C792
C810
C812
C813
C910
C920
C930
%D1
%D1
%D1
%D1
*D100
*D100
D105
*D116
*D116
D119
D120
D125
D130
D135
D140
D160
*D200
*D200
*D220
*D220
D340
D350
D360
D370
D610
D640
D645
D730
D740
IC100
IC102
IC105
IC110
IC115
IC120
IC125
IC140
IC150
*IC160
*IC160
*IC200
*IC200
*IC210
*IC210
*IC220
*IC220
20-1020
20-1021
26-1020
26-1021
20-1021
26-1021
20-1021
26-1021
20-1021
26-1021
20-1021
26-1021
20-1021
26-1021
20-1021
26-1021
20-1021
26-1021
20-1021
26-1021
01/07/00
M830P-00
IPN
Description
Ref
Var
IPN
Description
015-24470-08
014-07100-02
015-06100-08
014-08100-00
015-23120-01
015-06100-08
014-08100-00
015-22470-01
014-07470-01
015-06100-08
015-25100-08
015-22470-01
015-25100-08
014-07470-01
015-21470-01
015-22470-01
015-22470-01
015-24100-08
015-25100-08
014-07470-01
015-25100-08
015-06100-08
015-25100-08
015-22470-01
015-24100-08
014-08100-03
015-06100-08
015-06100-08
015-25100-08
014-08220-01
015-25100-08
014-07470-01
015-24100-08
015-24100-08
014-08220-01
014-08220-01
013-06330-11
015-25150-08
015-24100-08
015-24100-08
015-06100-08
015-24100-08
015-24100-08
015-24100-08
015-25470-08
015-23100-01
015-24100-08
015-02120-06
015-02270-06
015-02120-06
CAP CER 0805 4N7 10% X7R 50V
CAP TANT CHIP 1U0 3.2X1.6M 16V
CAP CER 1206 100N 10% X7R 50V
CAP TANT CHIP 10M 16VW +-20%
CAP CER 0805 120P 5% NPO 50V
CAP CER 1206 100N 10% X7R 50V
CAP TANT CHIP 10M 16VW +-20%
CAP CER 0805 47P 5% NPO 50V
CAP 4U7 ’B’CASE 25V +-10% 267
CAP CER 1206 100N 10% X7R 50V
CAP CER 0805 10N 10% X7R 50V
CAP CER 0805 47P 5% NPO 50V
CAP CER 0805 10N 10% X7R 50V
CAP 4U7 ’B’CASE 25V +-10% 267
CAP CER 0805 4P7+-0.25 NPO 50V
CAP CER 0805 47P 5% NPO 50V
CAP CER 0805 47P 5% NPO 50V
CAP CER 0805 1N 10% X7R 50V
CAP CER 0805 10N 10% X7R 50V
CAP 4U7 ’B’CASE 25V +-10% 267
CAP CER 0805 10N 10% X7R 50V
CAP CER 1206 100N 10% X7R 50V
CAP CER 0805 10N 10% X7R 50V
CAP CER 0805 47P 5% NPO 50V
CAP CER 0805 1N 10% X7R 50V
CAP TANT SMD 10U 35V 20%
CAP CER 1206 100N 10% X7R 50V
CAP CER 1206 100N 10% X7R 50V
CAP CER 0805 10N 10% X7R 50V
CAP TANT 22UF 10V 276MSER
CAP CER 0805 10N 10% X7R 50V
CAP 4U7 ’B’CASE 25V +-10% 267
CAP CER 0805 1N 10% X7R 50V
CAP CER 0805 1N 10% X7R 50V
CAP TANT 22UF 10V 276MSER
CAP TANT 22UF 10V 276MSER
CAP SMD PPS 330N 63V 5%
CAP CER 0805 15N 10% X7R 50V
CAP CER 0805 1N 10% X7R 50V
CAP CER 0805 1N 10% X7R 50V
CAP CER 1206 100N 10% X7R 50V
CAP CER 0805 1N 10% X7R 50V
CAP CER 0805 1N 10% X7R 50V
CAP CER 0805 1N 10% X7R 50V
CAP CER 0805 47N 10% X7R 50V
CAP CER 0805 100P 5% NPO 50V
CAP CER 0805 1N 10% X7R 50V
CAP CER 1210 12P NPO500VGRM42
CAP CER 1210 27P NPO 500V
CAP CER 1210 12P NPO500VGRM42
*IC230
*IC230
*IC230
IC240
IC250
IC330
IC610
IC630
IC640
IC650
IC710
IC740
IC750
IC810
IC820
20-1021
26-1020
26-1021
002-10006-62
002-10006-62
002-10006-62
002-10006-60
002-10078-00
002-10003-58
002-10078-05
002-10003-17
002-10003-58
002-10012-32
002-74900-04
002-14519-10
002-10330-78
002-08951-20
002-12416-00
S)IC SMD LMC662CM 2X O-AMP
S)IC SMD LMC662CM 2X O-AMP
S)IC SMD LMC662CM 2X O-AMP
S) IC SMD LMC660CM O-AMP 4X
S)IC SMD MC78M05CDT 5V REG0.5A
S) IC SMD LM358 DUAL O-AMP
S) IC SMD 78L05 5V REG
(S) IC LM317L REG S0-8 100MA
S) IC SMD LM358 DUAL O-AMP
SMD DS1232LPS-2 LP RESET&W-DOG
S) IC SMD 74HC04D 6X INV BUFFD
S) IC MC145191F SMD SYNTH
S) IC MC33078D 2X AMP LO NOISE
S) IC AT89C51 PLCC44 MIC 12MHZ
S)IC SMD AT24C16N-10SC EEPROM
L335
L340
L345
L346
L355
L360
L365
L370
L375
L380
L385
L390
L750
L910
L920
056-10330-02
056-10330-02
052-08135-25
052-08125-15
056-14150-02
052-08135-35
052-08140-15
065-10009-20
065-10004-20
056-14150-02
052-08145-35
056-10330-02
056-10068-02
052-08145-35
052-08145-35
IND SMD 330NH SIMID02
IND SMD 330NH SIMID02
COIL A/W 2.5T/3.5MM HOR 0.8MM
COIL A/W 1.5T/2.5MM HOR 0.8MM
IND SMD 1.5UH SIMID02
COIL A/W 3.5T/3.5MM HOR 0.8MM
COIL A/W 1.5T/4.0MM HOR 0.8MM
BEAD FER SMD BDS 3/3/8.9-4S2
BEAD FE SMD CBD 4.6/3/3-4S2
IND SMD 1.5UH SIMID02
COIL A/W 3.5/4.5MM HOR 0.8MM
IND SMD 330NH SIMID02
IND SMD 68NH SIMID02
COIL A/W 3.5/4.5MM HOR 0.8MM
COIL A/W 3.5/4.5MM HOR 0.8MM
PL1
070-01001-00
D-RANGE 15 WAY COMPL T800
001-10015-50
001-10015-50
001-10015-50
001-10015-50
001-10000-70
001-10000-70
001-10000-70
008-10067-03
008-10067-03
008-00014-80
001-10000-70
008-00014-79
001-10000-70
001-10000-70
001-10000-70
001-10000-70
001-10000-70
001-10000-70
001-10000-99
001-10000-99
001-10000-18
001-10000-18
001-10000-18
001-10010-40
001-10000-99
001-10000-70
001-10010-40
001-10165-00
001-10165-00
DIODE SMD ZENER 1.5SMC22AT3
DIODE SMD ZENER 1.5SMC22AT3
DIODE SMD ZENER 1.5SMC22AT3
DIODE SMD ZENER 1.5SMC22AT3
S) DIODE SMD BAV70 D-SW SOT23
S) DIODE SMD BAV70 D-SW SOT23
S) DIODE SMD BAV70 D-SW SOT23
S) LED SMD GRN LGT670-HK
S) LED SMD GRN LGT670-HK
S)LED 3MM GREEN WITH WIRE
S) DIODE SMD BAV70 D-SW SOT23
S)LED 3MM RED WITH WIRE
S) DIODE SMD BAV70 D-SW SOT23
S) DIODE SMD BAV70 D-SW SOT23
S) DIODE SMD BAV70 D-SW SOT23
S) DIODE SMD BAV70 D-SW SOT23
S) DIODE SMD BAV70 D-SW SOT23
S) DIODE SMD BAV70 D-SW SOT23
S) DIODE SMD BAV99 D-SW SOT23
S) DIODE SMD BAV99 D-SW SOT23
S) DIODE SMD BAT18 S-SW SOT23
S) DIODE SMD BAT18 S-SW SOT23
S) DIODE SMD BAT18 S-SW SOT23
DIODE SMD ZENER 33V BZG03-C33
S) DIODE SMD BAV99 D-SW SOT23
S) DIODE SMD BAV70 D-SW SOT23
DIODE SMD ZENER 33V BZG03-C33
DIODE BAT165 SCHOTTKY SOD-323
DIODE BAT165 SCHOTTKY SOD-323
Q100
Q101
Q102
Q103
*Q104
*Q104
Q105
Q305
Q310
Q315
Q320
Q325
Q330
Q335
Q340
Q345
Q365
Q370
Q510
Q520
Q530
Q540
Q550
Q610
Q620
Q630
Q660
Q670
Q750
Q760
Q770
Q775
Q780
Q785
Q790
Q795
Q820
Q830
Q840
Q850
Q860
000-10008-47
000-10008-47
000-10008-47
000-10008-47
000-10008-47
000-10008-47
000-10008-47
000-10008-47
000-10008-47
000-00033-12
000-10008-07
000-10008-07
000-10008-57
000-10008-07
000-10008-47
000-10008-47
000-10038-66
000-00022-30
000-10008-07
000-10008-07
000-10008-07
000-10008-07
000-10008-17
000-10008-07
000-00033-12
000-10003-00
000-10008-17
000-10008-57
000-10008-07
000-10008-47
000-10008-57
000-10008-57
000-10008-47
000-10008-57
000-10003-12
000-10057-10
000-10008-17
000-10008-57
000-10008-57
000-10008-47
000-10008-47
S) XSTR SMD BCW72 NPN
S) XSTR SMD BCW72 NPN
S) XSTR SMD BCW72 NPN
S) XSTR SMD BCW72 NPN
S) XSTR SMD BCW72 NPN
S) XSTR SMD BCW72 NPN
S) XSTR SMD BCW72 NPN
S) XSTR SMD BCW72 NPN
S) XSTR SMD BCW72 NPN
XSTR BD242 TO-220 PNP ISOLTD
S) XSTR SMD BC807 PNP SOT23 AF
S) XSTR SMD BC807 PNP SOT23 AF
S) XSTR SMD BCW70 PNP SOT23 SS
S) XSTR SMD BC807 PNP SOT23 AF
S) XSTR SMD BCW72 NPN
S) XSTR SMD BCW72 NPN
S) XSTR SMD MRF3866 SO8
S) XSTR 2N4427 NPN T039 VHF DR
S) XSTR SMD BC807 PNP SOT23 AF
S) XSTR SMD BC807 PNP SOT23 AF
S) XSTR SMD BC807 PNP SOT23 AF
S) XSTR SMD BC807 PNP SOT23 AF
S) XSTR SMD BC817-25 NPN SOT23
S) XSTR SMD BC807 PNP SOT23 AF
XSTR BD242 TO-220 PNP ISOLTD
S) XSTR BSR30 PNP AF SOT-89
S) XSTR SMD BC817-25 NPN SOT23
S) XSTR SMD BCW70 PNP SOT23 SS
S) XSTR SMD BC807 PNP SOT23 AF
S) XSTR SMD BCW72 NPN
S) XSTR SMD BCW70 PNP SOT23 SS
S) XSTR SMD BCW70 PNP SOT23 SS
S) XSTR SMD BCW72 NPN
S) XSTR SMD BCW70 PNP SOT23 SS
S) XSTR SMD BFR31 N JFET SOT23
S) XSTR SMD BR571 NPN SOT23
S) XSTR SMD BC817-25 NPN SOT23
S) XSTR SMD BCW70 PNP SOT23 SS
S) XSTR SMD BCW70 PNP SOT23 SS
S) XSTR SMD BCW72 NPN
S) XSTR SMD BCW72 NPN
002-74910-04
002-74910-04
002-74901-09
002-74901-09
002-74900-86
002-10006-60
002-10006-60
002-10041-04
002-10040-53
002-10040-53
002-10040-53
002-14515-00
002-14515-00
002-10006-62
002-10006-62
002-74910-04
002-74910-04
S) IC SMD 74HCU04 6X INV
S) IC SMD 74HCU04 6X INV
S) IC SMD 74HC109 DUAL JK F/F
S) IC SMD 74HC109 DUAL JK F/F
S) IC SMD 74HC86 EX OR SO14
S) IC SMD LMC660CM O-AMP 4X
S) IC SMD LMC660CM O-AMP 4X
S) IC SMD 4104 4X VOLT SHIFTER
S)IC 4053B SMD BREAK B4 MAKE
S)IC 4053B SMD BREAK B4 MAKE
S)IC 4053B SMD BREAK B4 MAKE
LIM)IC MC145151DW2 SYNTH P-IP
LIM)IC MC145151DW2 SYNTH P-IP
S)IC SMD LMC662CM 2X O-AMP
S)IC SMD LMC662CM 2X O-AMP
S) IC SMD 74HCU04 6X INV
S) IC SMD 74HCU04 6X INV
036-14220-00
036-12220-00
036-12220-00
036-14470-10
036-14470-10
036-14470-10
036-14470-10
036-14470-10
036-14470-10
036-15150-00
036-15100-10
036-15100-10
036-15100-10
036-15100-10
036-15470-10
036-15150-00
036-13100-10
036-13470-00
036-15470-10
036-15100-10
036-13470-00
036-15100-10
RES M/F 0805 2K2 5%
RES M/F 0805 22E 5%
RES M/F 0805 22E 5%
RES M/F 0805 4K7 1%
RES M/F 0805 4K7 1%
RES M/F 0805 4K7 1%
RES M/F 0805 4K7 1%
RES M/F 0805 4K7 1%
RES M/F 0805 4K7 1%
RES M/F 0805 15K 5%
RES M/F 0805 10K 1%
RES M/F 0805 10K 1%
RES M/F 0805 10K 1%
RES M/F 0805 10K 1%
RES M/F 0805 47K 1%
RES M/F 0805 15K 5%
RES M/F 0805 100E 1%
RES M/F 0805 470E 5%
RES M/F 0805 47K 1%
RES M/F 0805 10K 1%
RES M/F 0805 470E 5%
RES M/F 0805 10K 1%
R100
R101
R102
R103
R104
R105
R106
R107
R108
R109
R110
R111
R112
R113
R114
R115
R116
R117
R118
R119
R120
R122
20-1021
26-1021
Copyright TEL
IPN 220-01585-01
T837 PCB Information
M830P-00
Ref
R123
*R124
*R124
*R125
*R125
R126
R127
*R128
*R128
R129
R130
R131
R132
*R133
*R133
%R134
%R134
%R134
%R134
*R135
*R135
R136
%R137
%R137
%R137
%R137
%R138
%R138
%R138
%R138
%R139
%R139
%R139
%R139
%R140
%R140
%R140
%R140
*R141
*R141
*R142
*R142
*R143
*R143
*R144
*R144
*R145
*R145
*R146
*R146
*R147
*R147
%R148
%R148
%R148
%R148
R149
*%R150
%R150
*%R150
*R151
*R151
*R152
*R152
R153
*R154
*R154
R155
R156
*R158
*R158
*R159
*R159
*R160
*R160
*R161
*R161
R162
R163
R164
R165
*R166
*R166
*R167
*R167
R168
R169
R170
R171
R172
*R174
*R174
*R175
*R175
R176
R177
R178
*R179
Var
20-1021
26-1021
20-1021
26-1021
20-1021
26-1021
20-1021
26-1021
20-1020
20-1021
26-1020
26-1021
20-1021
26-1021
20-1020
20-1021
26-1020
26-1021
20-1020
20-1021
26-1020
26-1021
20-1020
20-1021
26-1020
26-1021
20-1020
20-1021
26-1020
26-1021
20-1021
26-1021
20-1021
26-1021
20-1021
26-1021
20-1021
26-1021
20-1021
26-1021
20-1021
26-1021
20-1021
26-1021
20-1020
20-1021
26-1020
26-1021
20-1021
26-1020
26-1021
20-1021
26-1021
20-1021
26-1021
20-1021
26-1021
20-1021
26-1021
20-1021
26-1021
20-1021
26-1021
20-1021
26-1021
20-1021
26-1021
20-1021
26-1021
20-1021
26-1021
20-1021
26-1021
20-1021
Copyright TEL
IPN
Description
Ref
Var
IPN
Description
036-13470-00
036-12560-00
036-12560-00
036-14100-10
036-14100-10
036-14560-00
036-14100-10
036-14220-00
036-14220-00
036-13560-10
036-15100-10
036-16470-00
036-15100-10
036-12220-00
036-12220-00
036-15220-00
036-15220-00
036-15120-00
036-15120-00
036-14100-10
036-14100-10
036-12100-10
036-14150-10
036-14150-10
036-13820-00
036-13820-00
036-15220-00
036-15220-00
036-15120-00
036-15120-00
036-15220-00
036-15220-00
036-10000-00
036-10000-00
036-14120-00
036-14120-00
036-15390-10
036-15390-10
036-17100-10
036-17100-10
036-16100-10
036-16100-10
036-15220-00
036-15220-00
036-14100-10
036-14100-10
036-14470-10
036-14470-10
036-15470-10
036-15470-10
036-16100-10
036-16100-10
036-13560-10
036-13560-10
036-14270-10
036-14270-10
036-16100-10
036-10000-00
036-15220-00
036-15220-00
036-16560-00
036-16560-00
036-16100-10
036-16100-10
036-10000-00
036-14220-00
036-14220-00
036-14270-10
036-14220-00
036-15100-10
036-15100-10
036-15220-00
036-15220-00
036-14270-10
036-14270-10
036-15100-10
036-15100-10
036-15100-10
036-14100-10
036-14100-10
036-15120-00
036-16100-10
036-16100-10
036-16100-10
036-16100-10
036-15180-10
036-15180-10
036-10000-00
036-10000-00
036-15330-10
036-16100-10
036-16100-10
036-16100-10
036-16100-10
036-15390-10
036-15100-10
036-16330-00
036-12220-00
RES M/F 0805 470E 5%
RES M/F 0805 56E 5%
RES M/F 0805 56E 5%
RES M/F 0805 1K 1%
RES M/F 0805 1K 1%
RES M/F 0805 5K6 5%
RES M/F 0805 1K 1%
RES M/F 0805 2K2 5%
RES M/F 0805 2K2 5%
RES M/F 0805 560E 1%
RES M/F 0805 10K 1%
RES M/F 0805 470K 5%
RES M/F 0805 10K 1%
RES M/F 0805 22E 5%
RES M/F 0805 22E 5%
RES M/F 0805 22K 5%
RES M/F 0805 22K 5%
RES M/F 0805 12K 5%
RES M/F 0805 12K 5%
RES M/F 0805 1K 1%
RES M/F 0805 1K 1%
RES M/F 0805 10E 1%
RES M/F 0805 1K5 1%
RES M/F 0805 1K5 1%
RES M/F 0805 820E 5%
RES M/F 0805 820E 5%
RES M/F 0805 22K 5%
RES M/F 0805 22K 5%
RES M/F 0805 12K 5%
RES M/F 0805 12K 5%
RES M/F 0805 22K 5%
RES M/F 0805 22K 5%
RES M/F 0805 ZERO OHM
RES M/F 0805 ZERO OHM
RES M/F 0805 1K2 5%
RES M/F 0805 1K2 5%
RES M/F 0805 39K 1%
RES M/F 0805 39K 1%
RES M/F 0805 1M 1%
RES M/F 0805 1M 1%
RES M/F 0805 100K 1%
RES M/F 0805 100K 1%
RES M/F 0805 22K 5%
RES M/F 0805 22K 5%
RES M/F 0805 1K 1%
RES M/F 0805 1K 1%
RES M/F 0805 4K7 1%
RES M/F 0805 4K7 1%
RES M/F 0805 47K 1%
RES M/F 0805 47K 1%
RES M/F 0805 100K 1%
RES M/F 0805 100K 1%
RES M/F 0805 560E 1%
RES M/F 0805 560E 1%
RES M/F 0805 2K7 1%
RES M/F 0805 2K7 1%
RES M/F 0805 100K 1%
RES M/F 0805 ZERO OHM
RES M/F 0805 22K 5%
RES M/F 0805 22K 5%
RES M/F 0805 560K 5%
RES M/F 0805 560K 5%
RES M/F 0805 100K 1%
RES M/F 0805 100K 1%
RES M/F 0805 ZERO OHM
RES M/F 0805 2K2 5%
RES M/F 0805 2K2 5%
RES M/F 0805 2K7 1%
RES M/F 0805 2K2 5%
RES M/F 0805 10K 1%
RES M/F 0805 10K 1%
RES M/F 0805 22K 5%
RES M/F 0805 22K 5%
RES M/F 0805 2K7 1%
RES M/F 0805 2K7 1%
RES M/F 0805 10K 1%
RES M/F 0805 10K 1%
RES M/F 0805 10K 1%
RES M/F 0805 1K 1%
RES M/F 0805 1K 1%
RES M/F 0805 12K 5%
RES M/F 0805 100K 1%
RES M/F 0805 100K 1%
RES M/F 0805 100K 1%
RES M/F 0805 100K 1%
RES M/F 0805 18K 1%
RES M/F 0805 18K 1%
RES M/F 0805 ZERO OHM
RES M/F 0805 ZERO OHM
RES M/F 0805 33K 1%
RES M/F 0805 100K 1%
RES M/F 0805 100K 1%
RES M/F 0805 100K 1%
RES M/F 0805 100K 1%
RES M/F 0805 39K 1%
RES M/F 0805 10K 1%
RES M/F 0805 330K 5%
RES M/F 0805 22E 5%
*R179
R180
R181
R182
R183
R184
R185
R186
R187
R188
*R189
*R189
R190
R191
R192
R193
R194
R195
R196
R197
R198
R199
R200
R201
R202
R203
R204
R205
R206
R207
*R208
*R208
R209
R210
R211
R212
R213
R214
R215
R216
R217
*R218
*R218
R219
R220
R221
R222
R223
*R224
*R224
*R224
R225
R226
*%R240
*%R240
*%R243
*%R243
*%R244
*%R244
*%R246
*%R246
*%R247
*%R247
R302
R304
R306
R308
R310
R312
R314
R316
R318
R320
R322
R324
R326
R328
R330
R332
R334
R336
R340
R342
R344
R345
R346
R348
R350
R352
R354
R358
R359
R360
R362
R364
R366
R368
R372
26-1021
036-12220-00
036-15100-10
036-15100-10
036-15100-10
036-14270-10
036-14470-10
036-15470-10
036-13100-10
036-15390-10
036-13100-10
036-12220-00
036-12220-00
036-17100-10
036-14470-10
036-13100-10
036-12220-00
036-14270-10
036-12220-00
036-17100-10
036-12220-00
036-12220-00
036-17100-10
036-17100-10
036-15390-10
036-12220-00
036-16820-10
036-12220-00
036-15820-00
036-15220-00
036-15330-10
036-12220-00
036-12220-00
036-12220-00
036-15390-10
036-14680-10
036-12220-00
036-15390-10
036-12220-00
036-15100-10
036-15470-10
036-12220-00
036-12220-00
036-12220-00
036-14180-00
036-15470-10
036-14180-00
036-12100-10
036-12220-00
036-12220-00
036-12220-00
036-12220-00
036-15470-10
036-15470-10
036-10000-00
036-10000-00
036-10000-00
036-10000-00
036-10000-00
036-10000-00
036-10000-00
036-10000-00
036-10000-00
036-10000-00
036-15220-00
036-14270-10
036-15100-10
036-16100-10
036-15220-00
036-14150-10
036-13100-10
036-15100-10
036-14220-00
036-14100-10
036-12220-00
036-13470-00
036-13470-00
036-13470-00
036-12220-00
036-15470-10
036-15100-10
036-14100-10
036-16100-10
036-12390-00
036-13150-10
036-12220-00
036-14150-10
036-12470-00
036-13560-10
036-13330-00
036-14100-10
036-12470-00
036-13150-10
036-12120-00
036-11470-00
036-14150-10
036-14150-10
036-14150-10
036-14150-10
RES M/F 0805 22E 5%
RES M/F 0805 10K 1%
RES M/F 0805 10K 1%
RES M/F 0805 10K 1%
RES M/F 0805 2K7 1%
RES M/F 0805 4K7 1%
RES M/F 0805 47K 1%
RES M/F 0805 100E 1%
RES M/F 0805 39K 1%
RES M/F 0805 100E 1%
RES M/F 0805 22E 5%
RES M/F 0805 22E 5%
RES M/F 0805 1M 1%
RES M/F 0805 4K7 1%
RES M/F 0805 100E 1%
RES M/F 0805 22E 5%
RES M/F 0805 2K7 1%
RES M/F 0805 22E 5%
RES M/F 0805 1M 1%
RES M/F 0805 22E 5%
RES M/F 0805 22E 5%
RES M/F 0805 1M 1%
RES M/F 0805 1M 1%
RES M/F 0805 39K 1%
RES M/F 0805 22E 5%
RES M/F 0805 820K 1%
RES M/F 0805 22E 5%
RES M/F 0805 82K 5%
RES M/F 0805 22K 5%
RES M/F 0805 33K 1%
RES M/F 0805 22E 5%
RES M/F 0805 22E 5%
RES M/F 0805 22E 5%
RES M/F 0805 39K 1%
RES M/F 0805 6K8 1%
RES M/F 0805 22E 5%
RES M/F 0805 39K 1%
RES M/F 0805 22E 5%
RES M/F 0805 10K 1%
RES M/F 0805 47K 1%
RES M/F 0805 22E 5%
RES M/F 0805 22E 5%
RES M/F 0805 22E 5%
RES M/F 0805 1K8 5%
RES M/F 0805 47K 1%
RES M/F 0805 1K8 5%
RES M/F 0805 10E 1%
RES M/F 0805 22E 5%
RES M/F 0805 22E 5%
RES M/F 0805 22E 5%
RES M/F 0805 22E 5%
RES M/F 0805 47K 1%
RES M/F 0805 47K 1%
RES M/F 0805 ZERO OHM
RES M/F 0805 ZERO OHM
RES M/F 0805 ZERO OHM
RES M/F 0805 ZERO OHM
RES M/F 0805 ZERO OHM
RES M/F 0805 ZERO OHM
RES M/F 0805 ZERO OHM
RES M/F 0805 ZERO OHM
RES M/F 0805 ZERO OHM
RES M/F 0805 ZERO OHM
RES M/F 0805 22K 5%
RES M/F 0805 2K7 1%
RES M/F 0805 10K 1%
RES M/F 0805 100K 1%
RES M/F 0805 22K 5%
RES M/F 0805 1K5 1%
RES M/F 0805 100E 1%
RES M/F 0805 10K 1%
RES M/F 0805 2K2 5%
RES M/F 0805 1K 1%
RES M/F 0805 22E 5%
RES M/F 0805 470E 5%
RES M/F 0805 470E 5%
RES M/F 0805 470E 5%
RES M/F 0805 22E 5%
RES M/F 0805 47K 1%
RES M/F 0805 10K 1%
RES M/F 0805 1K 1%
RES M/F 0805 100K 1%
RES M/F 0805 39E 5%
RES M/F 0805 150E 1%
RES M/F 0805 22E 5%
RES M/F 0805 1K5 1%
RES M/F 0805 47E 5%
RES M/F 0805 560E 1%
RES M/F 0805 330E 5%
RES M/F 0805 1K 1%
RES M/F 0805 47E 5%
RES M/F 0805 150E 1%
RES M/F 0805 12E 5%
RES M/F 0805 4E7 10%
RES M/F 0805 1K5 1%
RES M/F 0805 1K5 1%
RES M/F 0805 1K5 1%
RES M/F 0805 1K5 1%
20-1021
26-1021
20-1021
26-1021
20-1021
26-1021
20-1021
26-1020
26-1021
20-1021
26-1021
20-1021
26-1021
20-1021
26-1021
20-1021
26-1021
20-1021
26-1021
C6.2.7
01/07/00
IPN 220-01585-01
T837 PCB Information
C6.2.8
Ref
R375
R377
R378
R379
R380
R381
R382
R384
R385
R386
R387
R388
R389
R390
R391
R394
R396
R502
R505
R510
R515
R520
R525
R530
R535
R540
R545
%R550
%R550
%R550
%R550
R555
R560
R609
R613
R615
R617
R619
R621
R625
R629
R633
R637
R638
R640
R641
R645
R649
R653
R655
R656
R681
R685
R689
R693
R696
R709
R710
R711
R734
R735
R736
R742
R743
R744
R746
R747
R748
R749
R750
R752
R753
R754
R756
R757
R758
R759
R760
R762
R763
R765
R766
R767
R769
R771
R772
R774
R775
R784
R785
R786
R787
R790
R791
R792
R808
R809
R810
Var
20-1020
20-1021
26-1020
26-1021
01/07/00
M830P-00
IPN
Description
Ref
036-11330-00
036-14100-10
036-14100-10
036-14120-00
036-13180-00
036-13180-00
036-15470-10
036-15150-00
036-16120-10
036-14100-10
036-14180-00
036-15150-00
036-14180-00
036-15150-00
036-14180-00
036-14470-10
036-14100-10
036-13330-00
036-15150-00
036-13680-00
036-12560-00
036-16120-10
036-15470-10
036-15220-00
036-15100-10
036-14220-00
036-14470-10
036-14470-10
036-14470-10
036-14470-10
036-14470-10
036-14470-10
036-14120-00
036-14100-10
036-13560-10
036-13100-10
036-10000-00
036-01100-10
036-01100-10
036-14100-10
036-03270-10
036-14680-10
036-12220-00
036-12220-00
036-12100-10
036-14150-10
036-13470-00
036-14470-10
036-15100-10
036-10000-00
036-10000-00
036-13100-10
036-15150-00
036-12100-10
036-16100-10
036-15560-10
036-12100-10
036-13100-10
036-13100-10
036-13470-00
036-13470-00
036-13470-00
036-13150-10
036-13150-10
036-12220-00
036-12220-00
036-12220-00
036-15470-10
036-15470-10
036-12220-00
036-12680-00
036-17220-00
036-14100-10
036-15120-00
036-15120-00
036-14120-00
036-13330-00
036-13180-00
036-13100-10
036-13100-10
036-13680-00
036-14100-10
036-13680-00
036-13180-00
036-14820-10
036-15220-00
036-14820-10
036-14680-10
036-12680-00
036-14330-10
036-12100-10
036-12100-10
036-13220-10
036-13100-10
036-14100-10
036-12100-10
036-14470-10
036-14470-10
RES M/F 0805 3E3 5%
RES M/F 0805 1K 1%
RES M/F 0805 1K 1%
RES M/F 0805 1K2 5%
RES M/F 0805 180E 5%
RES M/F 0805 180E 5%
RES M/F 0805 47K 1%
RES M/F 0805 15K 5%
RES M/F 0805 120K 1%
RES M/F 0805 1K 1%
RES M/F 0805 1K8 5%
RES M/F 0805 15K 5%
RES M/F 0805 1K8 5%
RES M/F 0805 15K 5%
RES M/F 0805 1K8 5%
RES M/F 0805 4K7 1%
RES M/F 0805 1K 1%
RES M/F 0805 330E 5%
RES M/F 0805 15K 5%
RES M/F 0805 680E 5%
RES M/F 0805 56E 5%
RES M/F 0805 120K 1%
RES M/F 0805 47K 1%
RES M/F 0805 22K 5%
RES M/F 0805 10K 1%
RES M/F 0805 2K2 5%
RES M/F 0805 4K7 1%
RES M/F 0805 4K7 1%
RES M/F 0805 4K7 1%
RES M/F 0805 4K7 1%
RES M/F 0805 4K7 1%
RES M/F 0805 4K7 1%
RES M/F 0805 1K2 5%
RES M/F 0805 1K 1%
RES M/F 0805 560E 1%
RES M/F 0805 100E 1%
RES M/F 0805 ZERO OHM
RES 1 OHM 1 WATT 2512 CHIP
RES 1 OHM 1 WATT 2512 CHIP
RES M/F 0805 1K 1%
RES 270 OHM 1 WATT 2512 CHIP
RES M/F 0805 6K8 1%
RES M/F 0805 22E 5%
RES M/F 0805 22E 5%
RES M/F 0805 10E 1%
RES M/F 0805 1K5 1%
RES M/F 0805 470E 5%
RES M/F 0805 4K7 1%
RES M/F 0805 10K 1%
RES M/F 0805 ZERO OHM
RES M/F 0805 ZERO OHM
RES M/F 0805 100E 1%
RES M/F 0805 15K 5%
RES M/F 0805 10E 1%
RES M/F 0805 100K 1%
RES MF 0805 56K 1%
RES M/F 0805 10E 1%
RES M/F 0805 100E 1%
RES M/F 0805 100E 1%
RES M/F 0805 470E 5%
RES M/F 0805 470E 5%
RES M/F 0805 470E 5%
RES M/F 0805 150E 1%
RES M/F 0805 150E 1%
RES M/F 0805 22E 5%
RES M/F 0805 22E 5%
RES M/F 0805 22E 5%
RES M/F 0805 47K 1%
RES M/F 0805 47K 1%
RES M/F 0805 22E 5%
RES M/F 0805 68E 5%
RES M/F 0805 2M2 5%
RES M/F 0805 1K 1%
RES M/F 0805 12K 5%
RES M/F 0805 12K 5%
RES M/F 0805 1K2 5%
RES M/F 0805 330E 5%
RES M/F 0805 180E 5%
RES M/F 0805 100E 1%
RES M/F 0805 100E 1%
RES M/F 0805 680E 5%
RES M/F 0805 1K 1%
RES M/F 0805 680E 5%
RES M/F 0805 180E 5%
RES M/F 0805 8K2 1%
RES M/F 0805 22K 5%
RES M/F 0805 8K2 1%
RES M/F 0805 6K8 1%
RES M/F 0805 68E 5%
RES M/F 0805 3K3 1%
RES M/F 0805 10E 1%
RES M/F 0805 10E 1%
RES 0805 220E 1%
RES M/F 0805 100E 1%
RES M/F 0805 1K 1%
RES M/F 0805 10E 1%
RES M/F 0805 4K7 1%
RES M/F 0805 4K7 1%
R811
R812
R813
R815
R816
R818
R819
R821
R822
*R824
*R824
*R825
*R825
*R826
*R826
*R827
*R827
*R828
*R828
*R829
*R829
*R830
*R830
*R831
*R831
*R832
*R832
*R833
*R833
*R835
*R835
*R836
*R836
*R837
*R837
*R840
*R840
*R841
*R841
*R842
*R842
R845
R846
R847
R848
R849
R853
R854
Var
20-1021
26-1021
20-1021
26-1021
20-1021
26-1021
20-1021
26-1021
20-1021
26-1021
20-1021
26-1021
20-1021
26-1021
20-1021
26-1021
20-1021
26-1021
20-1021
26-1021
20-1021
26-1021
20-1021
26-1021
20-1021
26-1021
20-1021
26-1021
20-1021
26-1021
20-1021
26-1021
RV100
RV101
RV102
SK200
*SK220
*SK220
*SK805
*SK805
SK810
20-1021
26-1021
20-1021
26-1021
T610
%X100
%X100
%X100
%X100
X101
20-1020
20-1021
26-1020
26-1021
IPN
Description
036-14470-10
036-14470-10
036-14470-10
036-15470-10
036-16150-00
036-14470-10
036-14470-10
036-15470-10
036-15470-10
036-14220-00
036-14220-00
036-14220-00
036-14220-00
036-14220-00
036-14220-00
036-14220-00
036-14220-00
036-14220-00
036-14220-00
036-14220-00
036-14220-00
036-14220-00
036-14220-00
036-14220-00
036-14220-00
036-14220-00
036-14220-00
036-14220-00
036-14220-00
036-14220-00
036-14220-00
036-14220-00
036-14220-00
036-14220-00
036-14220-00
036-14220-00
036-14220-00
036-14220-00
036-14220-00
036-14220-00
036-14220-00
036-13470-00
036-13470-00
036-13470-00
036-14470-10
036-13470-00
036-14470-10
036-14470-10
RES M/F 0805 4K7 1%
RES M/F 0805 4K7 1%
RES M/F 0805 4K7 1%
RES M/F 0805 47K 1%
RES M/F 0805 150K 5%
RES M/F 0805 4K7 1%
RES M/F 0805 4K7 1%
RES M/F 0805 47K 1%
RES M/F 0805 47K 1%
RES M/F 0805 2K2 5%
RES M/F 0805 2K2 5%
RES M/F 0805 2K2 5%
RES M/F 0805 2K2 5%
RES M/F 0805 2K2 5%
RES M/F 0805 2K2 5%
RES M/F 0805 2K2 5%
RES M/F 0805 2K2 5%
RES M/F 0805 2K2 5%
RES M/F 0805 2K2 5%
RES M/F 0805 2K2 5%
RES M/F 0805 2K2 5%
RES M/F 0805 2K2 5%
RES M/F 0805 2K2 5%
RES M/F 0805 2K2 5%
RES M/F 0805 2K2 5%
RES M/F 0805 2K2 5%
RES M/F 0805 2K2 5%
RES M/F 0805 2K2 5%
RES M/F 0805 2K2 5%
RES M/F 0805 2K2 5%
RES M/F 0805 2K2 5%
RES M/F 0805 2K2 5%
RES M/F 0805 2K2 5%
RES M/F 0805 2K2 5%
RES M/F 0805 2K2 5%
RES M/F 0805 2K2 5%
RES M/F 0805 2K2 5%
RES M/F 0805 2K2 5%
RES M/F 0805 2K2 5%
RES M/F 0805 2K2 5%
RES M/F 0805 2K2 5%
RES M/F 0805 470E 5%
RES M/F 0805 470E 5%
RES M/F 0805 470E 5%
RES M/F 0805 4K7 1%
RES M/F 0805 470E 5%
RES M/F 0805 4K7 1%
RES M/F 0805 4K7 1%
042-05100-05
042-05500-05
042-05100-05
RES PRESET SMD 10K CER 4MM SQ
RES PRESET SMD 50K CER 4MM SQ
RES PRESET SMD 10K CER 4MM SQ
240-10000-07
240-02100-44
240-02100-44
240-10000-07
240-10000-07
240-04020-42
CONN SMD SKT 16W 2R M-MATCH
SKT COAX MINI JACK PCB MT ANG.
SKT COAX MINI JACK PCB MT ANG.
CONN SMD SKT 16W 2R M-MATCH
CONN SMD SKT 16W 2R M-MATCH
SKT 44 PIN SMD PLCC
050-15119-52
COIL SMD 680uH XFMR 5119-T052
539-00010-55
539-00010-45
539-00010-55
539-00010-45
539-00010-46
TCXO 12.8M 1PPM-20+70/2PPM -30
VCTCXO 12.8MHZ +-1.5PPM-30+70C
TCXO 12.8M 1PPM-20+70/2PPM -30
VCTCXO 12.8MHZ +-1.5PPM-30+70C
VCTCXO 12.8MHZ 3.0PPM -30 +75C
Copyright TEL
IPN 220-01585-01
T837 PCB Information
M830P-00
C6.2.9
T837 Mechanical & Miscellaneous Parts (IPN 220-01585-01)
IPN
Description
220-01585-01
POCSAG PAGING EXCITER PCB
240-02100-06
SKT COAX N TYPE PNL MTG OP-TER
240-04021-77
SKT JACK 1.3 PCB MT 64W
303-11169-04
CHASSIS PAINTED T800 SER II
303-23118-00
COVER A3M2247 D RANGE T855/7
303-50074-00
CLIP SPRING XSTR CLAMP T857
308-01007-01
HANDLE BS SII 2 WASHERS INC
312-01052-02
LID TOP T800 SER II PTND
312-01053-02
LID BOTTOM T800 SER II PNTD
316-06727-00
PNL FRT T800 SII PAGING
349-00020-36
SCREW TT M3X8m PANTORX BLK
349-00020-36
SCREW TT M3X8m PANTORX BLK
349-00020-43
SCRW T/T M4X12MM P/POZ BZ
349-00020-45
SCRW T/T M4X20MM P/POZ BZ
349-00020-55
SCRW M3*8 P/P T/T BLCKZNC CHRM
352-00010-08
NUT M3 COLD FORM HEX ST BZ
352-00010-29
NUT M4 NYLOC HEX
353-00010-13
WSHR M3 S/PROOF INT BZ
353-00010-24
WSHR M4x8mm Flat ST BZ
362-00010-33
GROMMET LED MTG 3MM
362-01101-00
GASKET INSUL SIL PAD 2000 TO5
Copyright TEL
IPN
Description
01/07/00
IPN 220-01585-01
T837 PCB Information
C6.2.10
M830P-00
T837 Grid Reference Index (IPN 220-01585-01)
How To Use This Grid Reference Index
The first digit in the PCB layout reference is a "1" or "2", indicating the top or bottom side layout respectively, and the last two characters give the location of the component on that diagram.
The first digit in the circuit diagram reference is the sheet number, and the last two characters give the location of the component on
that sheet.
Device
PCB
Circuit
Device
PCB
Circuit
Device
PCB
Circuit
Device
PCB
Circuit
C100
C101
C102
C103
C104
C105
C106
*C107
C108
C109
*C110
*C111
C112
%C113
C115
*C122
C123
*C124
%C125
*C126
*C127
%C128
%C129
*C130
*C131
*C132
*C133
*C134
*C135
*%C136
%C137
C138
C139
*C140
C141
C142
*C143
C144
*C145
*C146
*C147
C148
C149
C150
C151
C152
C153
C154
C155
C156
*C157
C158
C159
C160
C161
C162
C163
C164
*C165
1:C4
1:B5
1:D3
1:D2
1:D7
1:B5
1:A5
1:C4
1:B5
1:B5
1:C2
1:C3
1:C6
1:C8
1:A5
1:C2
1:C6
1:C3
1:C9
1:C3
1:C2
1:C9
1:C9
1:B2
1:B3
1:B3
1:B2
1:B3
1:B3
1:D9
1:D8
1:B6
1:B6
1:C4
1:B6
1:B7
1:B4
1:B7
1:B4
1:B3
1:B2
1:D7
1:B6
1:C7
1:A6
1:B8
1:B8
1:B7
1:B8
1:B6
1:C4
1:A6
1:C5
1:D4
1:B6
1:C6
1:B4
1:C8
1:C3
2-A9
2-A7
2-A4
2-A2
2-A0
2-B8
2-B7
2-B9
2-B8
2-C6
2-D1
2-D1
2-D8
2-E4
2-C7
2-E1
2-E0
2-F0
2-F5
2-F0
2-F3
2-F5
2-G5
2-G3
2-G0
2-G1
2-G2
2-H2
2-H1
2-H5
2-H5
2-H8
2-H7
2-J0
2-J7
2-J9
2-K2
2-K7
2-K2
2-K3
2-L3
2-L1
2-M3
2-M2
2-M3
2-N7
2-N8
2-N2
2-N8
2-N3
2-P2
2-P3
2-P4
2-P4
2-Q2
2-Q3
2-Q6
2-Q2
2-Q3
C166
C167
C168
*C169
C170
*C171
C172
*C173
C301
C304
C307
C309
C310
C313
C317
C318
C319
C325
C328
C330A
C330B
C331
C334
C337
C340
C343
C346
C349
C352
C355
C358
C361
%C370
C376
C379
C382
C383
C384
C385
C388
C390
C391
C392
C393
C394
C395
C397
C398
C503
C505
C510
C513
C535
C550
C605
C610A
C610B
C611A
C611B
1:D4
1:D4
1:C8
1:C3
1:D8
1:D8
1:D8
1:D8
1:E8
1:F8
1:F8
1:F4
1:F8
1:F7
1:F7
1:F7
1:F8
1:E5
1:E5
1:F7
1:F7
1:E6
1:E6
1:E6
1:F5
1:F5
1:F4
1:F5
1:F5
1:F5
1:F5
1:E5
1:E6
1:E7
1:E7
1:F5
1:E6
1:E6
1:F6
1:E8
1:F7
1:E7
1:E7
1:E8
1:E7
1:F6
1:F6
1:E7
1:K6
1:K6
1:J5
1:H5
1:K5
1:K4
1:L6
1:M5
1:M5
1:M6
1:M5
2-Q4
2-R4
2-R4
2-R3
2-R2
2-R0
2-R2
2-R0
3-A8
3-D9
3-C8
3-Q8
3-D8
3-G8
3-E8
3-F9
3-H9
3-K3
3-L4
3-N8
3-N8
3-L4
3-P4
3-Q4
3-C2
3-E3
3-D0
3-F1
3-G2
3-G2
3-H2
3-K3
3-L2
3-P3
3-Q3
3-F1
3-L3
3-L2
3-B5
3-D6
3-D4
3-P3
3-F5
3-G6
3-F5
3-J6
3-J5
3-R4
5-M8
5-M6
5-E3
5-G4
5-M4
5-L2
6-D8
6-F8
6-G8
6-H8
6-J8
C623
C625
C626
C628
C630
C631
C634
C636
C638
C640
C660
C665
C670
C673
C677
C681
C684
C687
C690
C693
C706
C708
C709
C710
C712
C713
C714
C733
C735
C736
C740A
C740B
C741A
C741B
C742A
C742B
C743
C745
C750
C757
C759
C761
C762
C764
C765
C767
C769
C770
C772
C774
C776
C782
C784
C786
C788
C790
C792
C810
C812
1:N6
1:M6
1:M6
1:M6
1:N5
1:N5
1:N5
1:M5
1:M6
1:M5
1:L5
1:L5
1:L5
1:L5
1:L6
1:L6
1:L6
1:M6
1:L6
1:L6
1:J2
1:J2
1:K4
1:J3
1:H2
1:H2
1:J3
1:H2
1:J2
1:J2
1:H2
1:H2
1:H2
1:G2
1:H2
1:H3
1:H2
1:G3
1:H4
1:G4
1:G4
1:G3
1:G3
1:H3
1:G3
1:H3
1:H4
1:J4
1:G4
1:H4
1:H4
1:G2
1:G2
1:G2
1:G3
1:G3
1:G3
1:L3
1:L2
6-N8
6-Q8
6-R8
6-R8
6-K5
6-M6
6-M4
6-M4
6-P5
6-R6
6-K0
6-K0
6-L0
6-P2
6-P0
6-R2
6-R2
6-Q1
6-R0
6-R0
7-B5
7-C9
7-D9
7-D8
7-E7
7-E6
7-E8
7-E3
7-A1
7-B1
7-B4
7-B3
7-C4
7-C3
7-D4
7-D3
7-B1
7-D1
7-F8
7-F5
7-G4
7-J4
7-J4
7-H2
7-J2
7-K3
7-M4
7-N4
7-M2
7-P2
7-N1
7-N1
7-R1
7-R1
7-P0
7-Q0
7-R1
8-K8
8-F5
C813
C910
C920
C930
1:N3
1:P7
1:P7
1:P6
8-J4
9-E5
9-F5
9-G5
%D1
%D2
*D100
*D100
D105
D105
*D116
D119
D120
D120
D125
D130
D130
D135
D135
D140
D140
D160
D160
*D200
*D200
*D220
*D220
D340
D350
D360
D370
D610
D610
D640
D640
D645
D730
D740
1:P5
1:P5
1:B4
1:B4
1:A4
1:A4
1:C1
1:A7
1:A6
1:A6
1:A8
1:D3
1:D3
1:D2
1:D2
1:C6
1:C6
1:D7
1:D7
1:B2
1:B2
1:C3
1:C3
1:F5
1:F5
1:F5
1:F7
1:N6
1:N6
1:L5
1:L5
1:M5
1:H3
1:H3
1-Q1
1-R1
2-B9
2-B9
2-B7
2-B7
2-H3
2-Q8
2-J8
2-J8
2-R6
2-B4
2-B4
2-B2
2-B2
2-A0
2-A0
2-B0
2-B0
2-G2
2-G2
2-F0
2-F0
3-D2
3-E2
3-E2
3-M8
6-K6
6-L6
6-M1
6-M1
6-R6
7-H1
7-J2
IC100
IC100
IC100
IC100
IC100
IC100
IC100
IC102
IC102
IC102
IC102
IC102
IC102
IC102
IC105
IC105
IC105
IC110
IC110
1:C6
1:C6
1:C6
1:C6
1:C6
1:C6
1:C6
1:B6
1:B6
1:B6
1:B6
1:B6
1:B6
1:B6
1:C6
1:C6
1:C6
1:B6
1:B6
2-L0
2-L3
2-D0
2-D8
2-D8
2-C8
2-C8
2-C6
2-L1
2-M3
2-C7
2-D6
2-L1
2-M1
2-E8
2-F8
2-N3
2-E6
2-F6
01/07/00
Copyright TEL
IPN 220-01585-01
T837 PCB Information
M830P-00
C6.2.11
Device
PCB
Circuit
Device
PCB
Circuit
Device
PCB
Circuit
Device
PCB
Circuit
IC110
IC115
IC115
IC115
IC115
IC115
IC120
IC120
IC120
IC120
IC120
IC125
IC125
IC125
IC125
IC125
IC140
IC140
IC140
IC140
IC140
IC150
IC150
IC150
IC150
*IC160
*IC160
*IC160
*IC160
*IC200
*IC210
*IC210
*IC210
*IC220
*IC220
*IC220
*IC220
*IC220
*IC220
*IC220
*IC230
*IC230
*IC230
IC240
IC240
IC240
IC240
IC240
IC250
IC330
IC330
IC330
IC610
IC630
IC640
IC640
IC640
IC650
IC710
IC710
IC710
IC710
IC710
IC710
IC710
IC740
IC750
IC750
IC750
IC820
1:B6
1:C6
1:C6
1:C6
1:C6
1:C6
1:B7
1:B7
1:B7
1:B7
1:B7
1:C8
1:C8
1:C8
1:C8
1:C8
1:C7
1:C7
1:C7
1:C7
1:C7
1:B7
1:B7
1:B7
1:B7
1:C3
1:C3
1:C3
1:C3
1:B2
1:B3
1:B3
1:B3
1:C3
1:C3
1:C3
1:C3
1:C3
1:C3
1:C3
1:D9
1:D9
1:D9
1:C8
1:C8
1:C8
1:C8
1:C8
1:D4
1:F8
1:F8
1:F8
1:L5
1:N5
1:M5
1:M5
1:M5
1:L5
1:J2
1:J2
1:J2
1:J2
1:J2
1:J2
1:J2
1:H2
1:H4
1:H4
1:H4
1:L4
2-P3
2-C4
2-D0
2-H9
2-H7
2-P3
2-K9
2-K6
2-K8
2-K7
2-P2
2-N6
2-Q2
2-M5
2-N5
2-P7
2-N1
2-L1
2-L8
2-D4
2-P1
2-J5
2-L6
2-M1
2-L8
2-N1
2-J1
2-Q1
2-Q1
2-E1
2-G3
2-G1
2-K3
2-H0
2-Q3
2-D0
2-E0
2-G0
2-G0
2-E0
2-H5
2-G0
2-R0
2-J0
2-L0
2-E5
2-R2
2-G4
2-Q5
3-E9
3-M8
3-M0
6-G8
6-K5
6-N5
6-R6
6-N3
6-D4
7-D6
7-D8
7-D7
7-D6
7-C6
7-G0
7-G0
7-D1
7-M3
7-H5
7-F8
8-N2
L360
L365
L370
L375
L380
L385
L390
L750
L910
L920
1:E6
1:E6
1:F6
1:E6
1:E6
1:E7
1:E7
1:G4
1:P7
1:P7
3-K3
3-M3
3-N2
3-M4
3-N4
3-P3
3-R4
7-R0
9-F6
9-G6
MICROSTR 2:L8
1 -G8
P100
P101
P103
P105
%P106
P810
*P820
*P825
*P830
*P835
*P840
1:P6
1:D3
1:D2
1:D8
1:C1
1:L3
1:L4
1:L4
1:L4
1:L4
1:L4
1-R8
2-A4
2-A2
2-J0
2-J2
8-A5
8-M8
8-M8
8-M8
8-M7
8-M7
PL100
1:P3
1-F0
Q100
Q101
Q102
Q103
*Q104
Q105
Q305
Q310
Q315
Q320
Q325
Q330
Q335
Q340
Q345
Q365
Q370
Q510
Q520
Q530
Q540
Q550
Q610
Q620
Q630
Q660
Q670
Q750
Q760
Q770
Q775
Q780
Q785
Q790
Q795
Q820
Q830
Q840
Q850
Q860
1:D3
1:D2
1:C7
1:C6
1:C3
1:A7
1:E8
1:F8
1:F8
1:F6
1:F7
1:F7
1:E7
1:E7
1:F6
1:E5
2:E6
1:J5
1:J5
1:J5
1:K5
1:K5
1:L6
1:N6
1:M6
1:L5
1:M6
1:G4
1:H3
1:H3
1:H3
1:H3
1:H3
1:H3
1:G3
1:L2
1:L2
1:L2
1:M2
1:L4
2-C4
2-C2
2-C0
2-F0
2-J0
2-Q8
3-B8
3-G8
3-J8
3-A5
3-C5
3-D4
3-E6
3-G6
3-H6
3-J2
3-N3
5-F3
5-H4
5-H3
5-L4
5-L3
6-E8
6-P8
6-P5
6-N1
6-Q1
7-F3
7-H3
7-H1
7-K3
7-K3
7-K2
7-L3
7-P1
8-D5
8-D5
8-F5
8-G5
8-B3
L335
L340
L345
L346
L355
1:F5
1:F5
1:F5
1:E5
1:E5
3-E3
3-F2
3-H2
3-H2
3-K3
R100
R101
R102
R103
R104
R105
R106
R107
1:C6
1:C4
1:B4
1:D7
1:D3
1:D2
1:D3
1:D7
2-A0
2-A9
2-A8
2-A0
2-A4
2-A2
2-B4
2-B0
R108
R109
R110
R111
R112
R113
R114
R115
R116
R117
R118
R119
R120
R122
R123
*R124
*R125
R126
R127
*R128
R129
R130
R131
R132
*R133
%R134
*R135
R136
%R137
%R138
%R139
%R140
*R141
*R142
*R143
*R144
*R145
*R146
*R147
%R148
R149
*%R150
*R151
*R152
R153
*R154
R155
R156
%R157
*R158
*R159
*R160
*R161
R162
R163
R164
R165
*R166
*R167
R168
R169
R170
R171
R172
%R173
*R174
*R175
R176
R177
R178
*R179
R180
R181
R182
R183
R184
1:D2
1:B5
1:D3
1:D2
1:C7
1:C7
1:C5
1:A5
1:B5
1:C7
1:B5
1:C7
1:C7
1:C7
1:C7
1:C2
1:C3
1:C7
1:C6
1:C3
1:C8
1:C6
1:C8
1:C6
1:C2
1:C8
1:C3
1:C6
1:C8
1:C8
1:C9
1:C8
1:B3
1:C3
1:B2
1:B3
1:B2
1:C3
1:B2
1:C9
1:D8
1:D9
1:B3
1:C3
1:C8
1:C2
1:C6
1:B6
1:C8
1:C3
1:B3
1:C3
1:C3
1:C9
1:B6
1:B7
1:B7
1:C4
1:B4
1:D7
1:D7
1:D7
1:D7
1:B7
1:C3
1:C3
1:B4
1:B7
1:B7
1:B7
1:B4
1:B7
1:B7
1:B7
1:C7
1:C8
2-B2
2-B8
2-C4
2-C2
2-C0
2-C4
2-C8
2-C7
2-C6
2-C0
2-C7
2-C0
2-C5
2-D0
2-D5
2-D1
2-D1
2-D4
2-D9
2-D0
2-D4
2-E0
2-E5
2-E0
2-E3
2-E4
2-E0
2-F0
2-F5
2-F4
2-F5
2-F5
2-F0
2-G0
2-G2
2-G1
2-G2
2-G2
2-G3
2-G5
2-H6
2-H5
2-H2
2-H2
2-H0
2-H3
2-H9
2-H7
2-H0
2-H2
2-J1
2-H0
2-H2
2-H0
2-J7
2-J9
2-J8
2-J0
2-J2
2-J6
2-J5
2-J4
2-J4
2-J8
2-J2
2-J0
2-J2
2-K8
2-K8
2-K7
2-K2
2-K6
2-K6
2-K8
2-K8
2-K0
R185
R186
R187
R188
*R189
R190
R191
R192
R193
R194
R195
R196
R197
R198
R199
R200
R201
R202
R203
R204
R205
R206
R207
*R208
R209
R210
R211
R212
R213
R214
R215
R216
R217
*R218
R219
R220
R221
R222
R223
*R224
R225
R226
*%R240
*%R241
*%R242
*%R243
*%R244
*%R245
*%R246
*%R247
R302
R304
R306
R308
R310
R312
R314
R316
R318
R320
R322
R324
R326
R328
R330
R332
R334
R336
R340
R342
R344
R345
R346
R348
R350
R352
1:D8
1:B7
1:C8
1:B7
1:B2
1:C7
1:C8
1:B7
1:B6
1:D8
1:D7
1:B8
1:C8
1:A6
1:B8
1:B8
1:C8
1:B7
1:B8
1:B6
1:B8
1:C8
1:B8
1:C4
1:A6
1:B8
1:B8
1:B6
1:B8
1:C6
1:B4
1:A6
1:C8
1:C4
1:B7
1:A7
1:B8
1:D4
1:D8
1:D8
1:D4
1:C8
1:B2
1:B2
1:B2
1:A2
1:A2
1:B2
1:B2
1:B2
1:E8
1:E8
1:F8
1:F8
1:F8
1:F7
1:F7
1:F8
1:F7
1:F8
1:F8
1:E8
1:E7
1:F8
1:F7
1:F7
1:E7
1:F7
1:F6
1:F5
1:F4
1:F7
1:F5
1:F5
1:F5
1:E5
2-K0
2-K5
2-K5
2-K7
2-K3
2-L7
2-L0
2-L8
2-L3
2-L0
2-L2
2-M7
2-M2
2-M3
2-M8
2-M8
2-M5
2-N2
2-N6
2-N3
2-N8
2-N5
2-N6
2-N2
2-P3
2-P7
2-P5
2-P2
2-P7
2-P3
2-Q7
2-Q7
2-Q2
2-Q3
2-Q8
2-R7
2-R7
2-R5
2-R2
2-R0
2-R5
2-R4
2-E2
2-E2
2-E2
2-E2
2-E2
2-E2
2-E2
2-E1
3-A7
3-B7
3-C8
3-C9
3-C9
3-D8
3-D7
3-E8
3-E9
3-G9
3-H8
3-J8
3-J7
3-K8
3-M8
3-C5
3-D6
3-D5
3-D5
3-C2
3-C2
3-F7
3-D2
3-D1
3-E1
3-J2
Copyright TEL
01/07/00
IPN 220-01585-01
T837 PCB Information
C6.2.12
M830P-00
Device
PCB
Circuit
Device
PCB
Circuit
Device
PCB
Circuit
R354
R358
R359
R360
R362
R364
R366
R368
R372
R375
R377
R378
R379
R380
R381
R382
R384
R385
R386
R387
R388
R389
R390
R391
R394
R396
R502
R505
R510
R515
R520
R525
R530
R535
R540
R545
%R550
%R553
R555
R560
R609
R613
R615
R617
R619
R621
R625
R629
R633
R637
R638
R640
R641
R645
R649
R653
R655
R656
R681
R685
R689
R693
R696
R709
R710
R711
R734
R735
R736
R742
R743
R744
R746
R747
R748
R749
1:E5
1:E6
1:F4
1:E7
1:E7
1:E7
1:E7
1:F5
1:F5
1:E5
1:E5
1:F7
1:E5
1:E5
1:E5
1:E7
1:E7
1:F7
1:F6
1:E6
1:F6
1:E6
1:F6
1:E6
1:E7
1:E7
1:K6
1:K6
1:K6
1:H6
1:J5
1:J5
1:J5
1:J5
1:K5
1:K5
1:K5
1:K5
1:K5
1:K5
1:L6
1:L6
1:M5
1:M5
1:N6
1:N6
1:N6
1:M6
1:M5
1:N5
1:N5
1:M5
1:N5
1:N5
1:M5
1:M5
1:L4
1:L4
1:L5
1:L5
1:L6
1:L5
1:L6
1:J2
1:H2
1:J2
1:K2
1:K2
1:K2
1:H2
1:H2
1:G2
1:H3
1:H3
1:J2
1:J2
3-J2
3-M2
3-B2
3-Q3
3-Q3
3-P2
3-Q2
3-G1
3-D0
3-L4
3-J3
3-D4
3-J3
3-J4
3-K4
3-F6
3-F5
3-F6
3-K6
3-M4
3-J6
3-N4
3-J6
3-N4
3-G5
3-H5
5-N8
5-M7
5-M7
5-E2
5-E3
5-E3
5-E3
5-F3
5-H4
5-J3
5-J4
5-K3
5-K3
5-M2
6-B8
6-C8
6-F9
6-J8
6-L8
6-L8
6-L7
6-P6
6-Q8
6-K6
6-K6
6-R6
6-L4
6-L5
6-M5
6-Q4
6-B4
6-B4
6-L1
6-N2
6-Q2
6-Q0
6-Q0
7-D8
7-E7
7-B6
7-A2
7-A2
7-A2
7-B4
7-C5
7-D4
7-E4
7-E5
7-A1
7-B1
R750
R752
R753
R754
R756
R757
R758
R759
R760
R762
R763
R765
R766
R767
R769
R771
R772
R774
R775
R784
R785
R786
R787
R790
R791
R792
R808
R809
R810
R811
R812
R813
R815
R816
R818
R819
R821
R822
*R824
*R825
*R826
*R827
*R828
*R829
*R830
*R831
*R832
*R833
*R835
*R836
*R837
*R840
*R841
*R842
R845
R846
R847
R848
R849
R853
R854
1:H4
1:G4
1:G4
1:G3
1:G3
1:G4
1:H3
1:H3
1:H3
1:H3
1:H3
1:H3
1:G3
1:H3
1:H3
1:H4
1:G4
1:H4
1:H4
1:G3
1:G3
1:G2
1:G2
1:G3
1:G3
1:G3
1:L2
1:L2
1:L3
1:L2
1:L2
1:L2
1:L2
1:L2
1:M2
1:M2
1:M4
1:M4
1:L4
1:L4
1:L4
1:L4
1:L4
1:L4
1:L3
1:L3
1:L3
1:L3
1:L3
1:L3
1:L3
1:L3
1:L3
1:L3
1:M4
1:M4
1:N3
1:L2
1:N3
1:M4
1:M4
7-F9
7-F5
7-F3
7-F3
7-G5
7-G4
7-H4
7-H4
7-K4
7-K4
7-L4
7-H2
7-J3
7-K2
7-K3
7-L3
7-M2
7-M3
7-N2
7-P1
7-Q1
7-R1
7-R2
7-P0
7-Q0
7-Q0
8-B4
8-D5
8-D6
8-E6
8-D5
8-D4
8-F4
8-F4
8-F5
8-F5
8-B3
8-E3
8-L8
8-L8
8-L8
8-L7
8-L7
8-P9
8-P9
8-P9
8-P8
8-P8
8-P8
8-P8
8-P7
8-P7
8-P7
8-P6
8-Q5
8-Q4
8-Q4
8-J4
8-Q3
8-N3
8-N3
SK531
SK532
SK533
SK534
SK535
*SK805
*SK805
*SK805
*SK805
*SK805
*SK805
*SK805
*SK805
*SK805
*SK805
*SK805
*SK805
*SK805
*SK805
*SK805
*SK805
SK810
1:K6
1:K5
1:K5
1:K5
1:K5
1:K3
1:K3
1:K3
1:K3
1:K3
1:K3
1:K3
1:K3
1:K3
1:K3
1:K3
1:K3
1:K3
1:K3
1:K3
1:K3
1:M3
5-N6
5-N6
5-N5
5-N5
5-N4
8-Q6
8-Q9
8-Q6
8-Q9
8-Q7
8-Q5
8-Q7
8-Q8
8-Q7
8-Q8
8-Q6
8-Q8
8-Q6
8-Q8
8-Q7
8-Q9
8-H5
SL100
SL101
SL102
SL103
SL104
SL320
SL501
1:D6
1:C7
1:C7
1:C7
1:C6
1:F7
2:J5
2-A0
2-C4
2-C0
2-D4
2-D0
3-E4
5-G3
T610
1:L6
6-N1
TP100
TP101
TP308
TP310
TP601
TP602
TP603
TP604
TP607
TP710
TP715
1:A8
1:B4
1:E7
1:F6
1:N5
1:L6
1:L5
1:L4
1:M5
1:G4
1:J2
2-P8
2-Q7
3-G6
3-L6
6-K9
6-R9
6-J1
6-M6
6-J9
7-H5
7-C6
%X100
X101
1:C5
1:B5
2-A8
2-A7
RV100
RV101
RV102
%RV300
1:D8
1:D7
1:C9
1:F7
2-J5
2-J4
2-N5
3-D7
SK200
*SK220
SK501
SK502
SK503
SK504
SK505
SK513
SK522
1:C2
1:C2
1:G6
1:G6
1:G6
1:G5
1:G5
1:H5
1:H6
2-P0
2-C1
5-D6
5-D6
5-D5
5-D5
5-D4
5-H5
5-E2
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Device
PCB
Circuit
Copyright TEL
DI
M830P-00
Part D
Caution:
T838 & T839 Power Amplifiers
There are no user serviceable components in these power amplifiers.
Refer all servicing to your nearest Tait Dealer or Customer Service
Organisation.
This part of the manual is divided into five sections, as listed below. There is a detailed
table of contents at the start of each section.
Section
Title
General Information
Circuit Operation
Initial Adjustment
Fault Finding
PCB Information
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DII
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M830P-00
Copyright TEL
T838/839 General Information
M830P-00
D1.1
T838/839 General Information
This section provides a brief description of the T838/839 PA, along with detailed specifications and a list of types available.
The following topics are covered in this section.
Section
Title
Page
1.1
Introduction
1.5
1.2
Specifications
1.6
1.2.1
Introduction
1.6
1.2.2
General
1.6
1.2.3
1.2.3.1
1.2.3.2
1.2.3.3
1.2.3.4
Test Standards
European Telecommunication Standard (ETS)
DTI CEPT Recommendation T/R-24-01
Telecommunications Industry Association
Chinese Radio Regulatory Commission
1.7
1.7
1.8
1.8
1.8
1.3
Product Codes
1.9
1.4
Paging Product Range
1.10
Figure
Title
Page
1.1
T838/839 Main Circuit Block Identification
1.4
1.2
T838/839 Front Panel Controls
1.4
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D1.2
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T838/839 General Information
M830P-00
Copyright TEL
M830P-00
T838/839 General Information
D1.3
replace A4 pages D1.3/D1.4 with A3 pages D1.3/D1.4
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D1.4
T838/839 General Information
M830P-00
replace A4 pages D1.3/D1.4 with A3 pages D1.3/D1.4
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T838/839 General Information
M830P-00
1.1
D1.5
Introduction
The T838 & T839 are FM base station power amplifiers designed for single or multichannel operation in the 148 to 174MHz frequency range. The typical output power capabilities are as follows:
T838 T839 -
10 to 60W
20 to 120W.
The T838 PA comprises a single broad band RF power module whose output is filtered
before being fed to the output socket.
The T839 PA comprises two broad band RF power modules whose outputs are recombined (using a quadrature hybrid combiner) and filtered before being fed to the output
socket. This dual module design enables the transmitter to produce at least one quarter
of its rated power if one of the modules fails.
VSWR and thermal protection is incorporated into the basic design, while monitoring
and alarm signals are available for both forward and reverse power. The output power
is adjustable from the front panel.
The main PCB is mounted directly on a die-cast chassis/heatsink. Extensive use is
made of the latest surface mount technology. Effective RF isolation between the PA control circuitry and RF stages is achieved by internal metal shields.
Forced air cooling for the heatsink is provided on the T839 by a fan, which is activated
whenever the transmitter is keyed. Thermal sensors will also activate the fan automatically if the internal temperature reaches an unacceptable level.
The T838 has a width of 60mm and occupies a single space in a Tait rack frame, which
has the ability to accommodate up to seven standard modules. The T839 has a width of
120mm and occupies a double space.
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D1.6
T838/839 General Information
1.2
Specifications
1.2.1
Introduction
M830P-00
The performance figures given are minimum figures, unless otherwise indicated, for
equipment operating at standard room temperature (+22°C to +28°C) and standard test
voltage (13.8V DC).
Where applicable, the test methods used to obtain the following performance figures are
those described in the ETS and Chinese GB/T 15938 specifications. Refer to Section
1.2.3 for details of test standards.
Details of test methods and the conditions which apply for Type Approval testing in all
countries can be obtained from Tait Electronics Ltd.
1.2.2
General
Power Output:
T838
- Rated Power
- Range Of Adjustment
.. 50W
.. 10 to 60W (typical)
T839
- Rated Power
- Range Of Adjustment
.. 100W
.. 20 to 120W (typical)
Input Power
.. 600mW to 1W
Duty Cycle Rating:
T838
T839
Intermodulation
(PA with output isolator)
.. 50W continuous to +60°C
.. 100W continuous to +60°C
.. -70dBc or -40dBi1 with 25dB isolation
& interfering signal of -30dBc
Mismatch Capability:
Ruggedness
Stability
.. refer to your nearest Tait Dealer or
Customer Service Organisation
.. 5:1 VSWR (all phase angles)
Supply Voltage:
Operating Voltage
Standard Test Voltage
Polarity
Polarity Protection
..
..
..
..
10.8 to 16V DC
13.8V DC
negative earth only
crowbar diode
1. dBi denotes the level of the intermodulation product relative to the interfering signal.
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T838/839 General Information
M830P-00
D1.7
Supply Current:
Standby
Transmit
- T838
- T839
.. 50mA
.. 11A (9A typical @ 156MHz)
.. 19A (15A typical @ 156MHz)
Spurious Emissions:
Conducted
- Transmit
- Standby
Radiated
- Transmit
- Standby
Operating Temperature Range
.. -36dBm to 1GHz
-30dBm to 4GHz
.. -57dBm to 1GHz
-47dBm to 4GHz
.. -36dBm to 1GHz
-30dBm to 4GHz
.. -57dBm to 1GHz
-47dBm to 4GHz
.. -30°C to +60°C
Dimensions:
Height
Width
- T838
- T839
Length
..
..
..
..
183mm
60mm
120mm
340mm
Weight:
T838
T839
1.2.3
.. 3.2kg
.. 3.4kg
Test Standards
Where applicable, this equipment is tested in accordance with the following standards.
1.2.3.1
European Telecommunication Standard
ETS 300 086 January 1991
Radio equipment and systems; land mobile service; technical characteristics and test
conditions for radio equipment with an internal or external RF connector intended primarily for analogue speech.
ETS 300 113 March 1996
Radio equipment and systems; land mobile service; technical characteristics and test
conditions for radio equipment intended for the transmission of data (and speech) and
having an antenna connector.
ETS 300 219 October 1993
Radio equipment and systems; land mobile service; technical characteristics and test
conditions for radio equipment transmitting signals to initiate a specific response in the
receiver.
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T838/839 General Information
M830P-00
ETS 300 279 February 1996
Radio equipment and systems; electromagnetic compatibility (EMC) standard for private land mobile radio (PMR) and ancillary equipment (speech and/or non-speech).
1.2.3.2
DTI CEPT Recommendation T/R-24-01
Annex I: 1988
Technical characteristics and test conditions for radio equipment in the land mobile
service intended primarily for analogue speech.
Annex II: 1988
Technical characteristics of radio equipment in the land mobile service with regard to
quality and stability of transmission.
1.2.3.3
Telecommunications Industry Association
ANSI/TIA/EIA-603-1992
Land mobile FM or PM communications equipment measurement and performance
standards.
1.2.3.4
Chinese Radio Regulatory Commission
GB/T 15938 - 1995
General specification for equipment of radio paging systems.
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T838/839 General Information
M830P-00
1.3
D1.9
Product Codes
The three groups of digits in the T830 Series II product code provide information about
the model, type and options fitted, according to the conventions described below.
The following explanation of T830 Series II product codes is not intended to suggest that
any combination of features is necessarily available in any one product. Consult your
nearest Tait Dealer or Customer Service Organisation for more information regarding
the availability of specific models, types and options.
Model
The Model group indicates the basic function of the product, as follows:
T83X-XX-XXXX
T837 exciter
T838 50W power amplifier
T839 100W power amplifier
Type
The Type group uses two digits to indicate the basic RF configuration of the product.
The first digit in the Type group designates the frequency range:
T83X-XX-XXXX
’2’ for 148-174MHz
The second digit in the Type group indicates the channel spacing and is not applicable
to power amplifiers:
T83X-XX-XXXX
’0’ for all power amplifiers
Options
T83X-XX-XXXX
Copyright TEL
The Options group uses four digits and/or letters to indicate
any options that may be fitted to the product. This includes
standard options and special options for specific customers.
’0000’ indicates a standard Tait product with no options fitted.
The large number of options precludes listing them here.
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D1.10
T838/839 General Information
1.4
Paging Product Range
M830P-00
The following table lists the range of T838 and T839 paging product types available at
the time this manual was published. Consult your nearest Tait Dealer or Customer
Service Organisation for more information.
Output Power (W)
50
100
Frequency Range (MHz)
148-174
148-174
PA Type: T838-
20-0000
PA Type: T839-
20-0000
20-1020a
a. Chinese market only.
You can identify the PA type by checking the product code printed on a label on the rear
of the heatsink (Figure 1.1 in Part A shows typical labels). You can further verify the PA
type by checking the placement of an SMD resistor in the table that is screen printed
onto the PCB (refer to Section 5.1 for more details).
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T838/839 Circuit Operation
M830P-00
D2.1
T838/839 Circuit Operation
This section provides a basic description of the circuit operation of the T838/839 PA.
Refer to Section 5 where the parts lists, grid reference index and diagrams will provide
detailed information on identifying and locating components. Refer also to Figure 3.2
which shows the location of the main adjustment controls.
The following topics are covered in this section.
Section
Title
Page
2.1
Introduction
2.3
2.2
RF Circuitry
2.4
2.3
Control Circuitry
2.5
2.3.1
Power Control
2.6
2.3.2
Driver Power Level
2.6
2.3.3
Thermal Protection
2.6
2.3.4
Forward And Reverse Power Alarms
2.7
2.3.5
Forward And Reverse Power Metering
2.7
2.3.6
Fan Control Circuitry
2.7
Power Supply & Regulator Circuits
2.8
2.4
Figure
Title
Page
2.1
T838 High Level Block Diagram
2.3
2.2
T839 High Level Block Diagram
2.3
2.3
T838/839 Control Circuitry Block Diagram
2.5
2.4
T839 Fan Control Logic Diagram
2.7
2.5
T838/839 Power Supply & Regulator Circuitry Block Diagram
2.8
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D2.2
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T838/839 Circuit Operation
M830P-00
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T838/839 Circuit Operation
M830P-00
2.1
D2.3
Introduction
Power
Control
Vsupply
Q137
400mW
(±100mW)
600mW - 1W
#IC201
60W
50W
RF In
LPF
3dB Pad
RF Out
Directional
Coupler
M68702
Figure 2.1 T838 High Level Block Diagram
Power
Control
Vsupply
Q317
#IC201
400mW
60W
M68702
600mW - 1W
3dB Coupler
3dB Coupler
120W
100W
RF In
LPF
*IC203
*IC205
RF Out
Directional
Coupler
*#IC202
400mW
60W
M68702
Figure 2.2 T839 High Level Block Diagram
The T838/839 comprise a single stage RF power amplifier with extensive control circuitry:
• in the T838 this stage consists of a single, two-stage RF power module which
increases the drive level to approx. 60W;
• in the T839 this stage consists of two, two-stage RF power modules, each of
which increases the drive level to approx. 60W; the outputs from these modules are then combined to provide the rated output power.
Figure 2.1 and Figure 2.2 show the configuration of each of the main circuit blocks on a
functional level, while the fold-out Figure 1.1 shows their location on the PCB.
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D2.4
T838/839 Circuit Operation
2.2
RF Circuitry
M830P-00
(Refer to the RF & thermistor control sections circuit diagram in Section 5.)
The T838 consists of a single RF power module (#IC201) which delivers 60-70W. The
input signal is fed directly into the module, and the output from the module is passed to
the antenna socket via the directional coupler and low pass filter.
The T839 consists of two RF power modules (#IC201 & *#IC202), each of which delivers
60-70W. The input signal to these modules is split via a 3dB quadrature hybrid (*IC203).
The outputs from the modules are recombined by a second 3dB quadrature hybrid
(*IC205) before being passed to the antenna socket via the directional coupler and low
pass filter.
The directional coupler senses forward and reflected power, which is rectified (D201 &
D203) and passed to the control circuitry for metering, alarm and power control purposes.
Power control is via a series pass transistor (Q137), which controls the supply voltage on
pin 2 of #IC201 in the T838, and pin 2 of both #IC201 and *#IC202 in the T839.
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T838/839 Circuit Operation
M830P-00
2.3
D2.5
Control Circuitry
(Refer to the control section circuit diagram in Section 5.)
IC107
IC105
Drive Level Clamp
RV115
L101/L103
13.8V
Filtered
13.8V
Voltage
Regulator
7V
Supply
IC109
Supply LED
+7V
Tx
Key
Forward Power
Alarm
Forward
Power
Meter
Low Forward Power LED
RV103
RV101
Forward
Power
Sense
FET
Switch
IC103
Buffer
Q117
Forward
Power
Alarm
Q121
Comparator
IC103
+13.8V
Filtered
R153
Integrator
Control
Supply
Q135 Q137
IC105
Power
Control
RV109
Shutdown
Power Level
Comparator
Ref.
R154
IC101
-t°
RV113
R237 (RF Section)
NTC
+7V
Reverse Power
Alarm
High Reverse Power LED
RV105
Reverse
Power
Sense
FET
Switch
IC103
Buffer
Q129
Q131
Reverse
Power
Alarm
Comparator
IC103
RV107
Reverse
Power
Meter
Figure 2.3 T838/839 Control Circuitry Block Diagram
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D2.6
T838/839 Circuit Operation
2.3.1
Power Control
M830P-00
The DC voltages from the directional coupler representing forward and reflected power
are buffered by the two voltage followers, IC103 pins 1, 2 & 3 and pins 8, 9 & 10. Their
outputs are summed at an integrator (IC105 pins 1, 2 & 3), which drives the series pass
control elements (Q135 & Q137).
Forward and reflected power are summed so that, under high output VSWR, the power
control turns the PA down. This is because the control loop adjusts for the same DC
voltage from the directional coupler that would have been present if there were no
reflected power.
2.3.2
Driver Power Level
The maximum output power of the T838/839 can be limited by placing a ceiling on the
driver output power level using RV115 (accessible through the side cover). For example, if RV115 is set for a maximum output power of 50W, the range of adjustment using
RV109 (front panel power adjust) will be 20 to 50W.
Caution:
2.3.3
The driver power level clamp (RV115) is factory set to give a maximum
power output of 60W for the T838 and 120W for the T839. The unit may
be damaged if this level is increased.
Thermal Protection
At excessively high temperatures, the output power will automatically reduce to a preset level (set by RV113), thus preventing the PA from overheating.
Ambient temperature within the PA is measured by a thermistor controlled voltage
divider (R168, R237) which applies a voltage to a comparator with hysteresis (IC101
pins 8, 9 & 10). This thermistor is located on the PCB in the low pass filter cavity.
Thermal protection is also provided for each RF power module to prevent the module
itself from overheating. This protection consists of a thermistor controlled voltage
divider (R207, *R215 and R220, R219) which sets a voltage on a comparator with hysteresis (IC204 pins 1, 2 & 3 and 5, 6 & 7). These thermistors are located on the module
flanges.
The output current from all comparators is summed into the power control network via
RV113 so that the power level to which the PA must turn down may be set.
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T838/839 Circuit Operation
M830P-00
2.3.4
D2.7
Forward And Reverse Power Alarms
If forward power drops below, or reverse power rises above, presettable limits, alarms
may be triggered.
The alarm outputs are open drain configuration and are low under normal conditions
(i.e. forward and reverse power levels are normal).
IC103 pins 12, 13 & 14 and pins 5, 6 & 7 form comparators with thresholds adjusted via
RV101 and RV105 respectively. The inputs are from the forward and reverse power signals from the directional coupler, buffered by IC103 pins 1, 2 & 3 and pins 8, 9 & 10.
Thus, the power levels at which the forward and reverse power alarms are triggered are
defined by RV101 and RV105 respectively.
2.3.5
Forward And Reverse Power Metering
Forward and reverse power signals from the two IC1 buffers are available for metering
purposes. The output currents are adjustable via RV103 (forward power) and RV107
(reverse power).
2.3.6
Fan Control Circuitry
Invert
13.8V
Filtered
Tx Key
*Q101
OR
NAND
*Q107 *Q109
Comparator
NTC
High Temp.
Sense On PCB
Ref
*Q103,
*R106, *R107
*Q103, *Q105,
*R111, *R112
Fan
Fan Driver
IC101
R237
Q201
Comparator
NTC
High Temp.
Sense On
Module Flange
Ref
*R215
IC204
NTC
Comparator
High Temp.
Sense On
Module Flange
Ref
R219
IC204
NTC
Comparator
Low Temp.
Sense
Ref
*R116
OR
D202, R212,
R214
IC101
Figure 2.4 T839 Fan Control Logic Diagram
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01/07/00
D2.8
T838/839 Circuit Operation
M830P-00
Comparator IC101 pins 12, 13 & 14 are set to switch at heatsink temperatures greater
than +90°C or RF power module flange temperatures greater than +110°C, and pins 1, 2
& 3 at temperatures less than -10°C.
A logic AND function is applied to the comparator outputs by *Q103 and *Q105,
thereby turning on the fan unconditionally (via *Q107 and *Q109) if the heatsink temperature exceeds +90°C or the module flange temperatures exceed +110°C.
A logic OR function is applied to comparator IC101 pins 12, 13 & 14 and Tx KEY signals,
thereby turning on the fan when the transmitter is keyed and the temperature is
between -10°C and +90°C (or +110°C for the module flanges).
If the temperature drops below -10°C, *Q105 is turned off, preventing *Q103 from activating the fan.
2.4
Power Supply & Regulator Circuits
(Refer to the control section circuit diagram in Section 5.)
Crowbar
Diode
7V
Reg.
Temp.
Sense
13.8V
Nom.
Fan
Control
+7V
To Fan
Clamp
Power
Power
Clamp
Set
Power
Power
Control
From
Directional
Coupler
Power
Control
Vout
Figure 2.5 T838/839 Power Supply & Regulator Circuitry Block Diagram
The T838/839 are designed to operate off a 10.8-16V DC supply (13.8V nominal). A 7V
supply runs directly off the 13.8V rail, driving the fan control, power control and alarm
circuitry.
A crowbar diode is fitted for protection against connection to a power supply of incorrect polarity. It also provides transient overvoltage protection.
Note:
01/07/00
A fuse must be fitted in the power supply line for the diode to provide effective protection.
Copyright TEL
T838/839 Initial Adjustment
M830P-00
D3.1
T838/839 Initial Adjustment
Caution:
This equipment contains CMOS devices which are susceptible to damage from static charges. Refer to Section 1.2 in Part A for more information on anti-static procedures when handling these devices.
The following section describes the full adjustment procedure to be carried out before
operating the T838/839.
The T838/839 require no RF tuning or alignment.
Note:
Refer to Section 5 where the parts lists, grid reference index and diagrams will provide
detailed information on identifying and locating components. Refer also to Figure 3.2
which shows the location of the main adjustment controls.
The following topics are covered in this section.
Section
Title
Page
3.1
Test Equipment Required
3.3
3.2
Preliminary Checks
3.3
3.3
Setting The Output Power
3.4
3.4
High Temperature Shutdown Power Level
3.5
3.5
Remote Forward Power Meter Calibration
3.5
3.6
Remote Reverse Power Meter Calibration
3.5
3.7
Setting Alarm Levels
3.6
3.7.1
Forward Power
3.6
3.7.2
Reverse Power
3.6
Figure
Title
Page
3.1
T838/839 Test Equipment Set-up
3.3
3.2
T838/839 Main Adjustment Controls
3.7
Copyright TEL
01/07/00
D3.2
01/07/00
T838/839 Initial Adjustment
M830P-00
Copyright TEL
T838/839 Initial Adjustment
M830P-00
3.1
D3.3
Test Equipment Required
•
DC power supply capable of delivering 30A at 13.8V.
•
Multimeter or DMM (e.g. Fluke 77).
•
RF power meter (e.g. HP 435 series or Bird Wattmeter).
•
150W 30dB attenuator.
•
150W 3dB 50 ohm pad.
•
'BNC' to 'N' type adaptors (e.g. Amphenol, Greenpar).
•
Appropriate trimming tools.
Tx Enable
30db
Attenuator
Exciter
RF Power
Meter
PA
(HP 435)
Tx Key
Figure 3.1 T838/839 Test Equipment Set-up
Caution:
3.2
Do not connect attenuators or DC blocks between the T837 and T838/
839 or the cyclic keying circuitry will not function correctly.
Preliminary Checks
Check for short circuits between the positive rail and earth.
Set up the test equipment as in Figure 3.1.
Connect the T838/839 to a 13.8V DC supply.
Check that the quiescent current is <50mA.
To key the transmitter, earth the key line (D-range 1 [PL100] pin 13) on the exciter.
Check that the power supply is still at 13.8V under load.
Check that the regulated power control supply is approximately 7V.
Note:
Copyright TEL
The output power and alarm levels should be set with the side cover on. If
the cover is removed for other adjustment procedures, make a final check of
the output power and alarm levels with the side cover on.
01/07/00
D3.4
T838/839 Initial Adjustment
3.3
Setting The Output Power
Caution:
Note 1:
M830P-00
If the high temperature shutdown power level has not yet been set or is
unknown, check that the unit does not overheat while setting the output power.
You must set up the T838/839 according to the following instructions before
operation in a radio system. Do not use the factory default settings as they
may not suit your operating frequency.
To obtain optimum performance from the T838/839, ensure that the exciter
used in this set-up procedure is the one that will be used with the PA in the
radio system.
Note 2:
Cables and connectors can easily cause a power loss of several watts if either
too long or poorly terminated. Always use the shortest possible leads (or
connectors instead of leads) between the T838/839 and power meter set-up.
You will need appropriate extension leads if you wish to carry out the
adjustment procedures with the T838/839 withdrawn from the rack in the
latched position. Alternatively, disconnect and withdraw the T838/839 and
reconnect it behind the rack.
Note 3:
The actual power used may be limited by regulatory requirements.
Set the exciter to the required operating frequency.
Connect the exciter output to the PA input via a thru-line wattmeter with a 1W
full scale reading. Special BNC/N leads will be required.
Connect an RF power meter to the PA output connector.
With the exciter not keyed:
• remove the label over the adjustment hole for RV115 (driver power clamp);
• set RV115 to maximum (fully clockwise);
• set RV109 (front panel power control) to maximum (fully clockwise).
Key on the exciter.
Quickly (within 30 seconds) adjust RV115 until the output power is:
T838 T839 -
60W
120W.
Adjust RV109 to set the power output to the following levels (or less if required):
T838 T839 -
01/07/00
50W
100W.
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T838/839 Initial Adjustment
M830P-00
Caution:
D3.5
Do not allow the output power to exceed these levels as this will seriously reduce the reliability of the PA.
Do not use RV115 to set the output power as this will disable the thermal protection circuitry. The power clamp must always be 10W (T838)/
20W (T839) above the set output power.
Replace the label over the adjustment hole for RV115.
3.4
High Temperature Shutdown Power Level
Set RV109 (power control) to the required output power.
Earth pin 9 of IC101 (the via at NTC R237 is convenient).
Adjust RV113 (shutdown power level) for an output power of:
T838 T839 -
16W
40W.
Remove the earth from pin 9 of IC101 (or the pad of R237).
To check the operation of the RF power module thermistor(s), place shorting links
across pins 1 & 2 and 2 & 3 of LINK201.
Check that the output power drops to:
T838 T839 -
16W
40W.
Remove the shorting links from LINK201.
3.5
Remote Forward Power Meter Calibration
If a remote meter is connected, adjust RV103 (forward power meter calibration)
for the remote reading to agree with the RF power meter reading.
3.6
Remote Reverse Power Meter Calibration
If a remote meter is connected, connect a 50 ohm 3dB pad (with the output open
circuit) to the PA output.
Apply RF drive and Tx key.
Adjust RV107 (reverse power meter calibration) for a quarter of the forward
power reading.
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01/07/00
D3.6
T838/839 Initial Adjustment
3.7
Setting Alarm Levels
Note:
If forward and reverse power metering is being used, set up their calibration
(Section 3.5 and Section 3.6) before setting the alarm levels.
3.7.1
Forward Power
M830P-00
Power up the T838/839 and adjust RV109 (front panel power control) so that the
output power is at the alarm level required (e.g. 80W if the T839 normally operates at 100W).
Adjust RV101 (forward power alarm set) so that the forward power alarm LED
lights.
Check the alarm level setting by adjusting the power up and down and observing
the alarm LED. A few watts hysteresis can be expected.
Readjust RV109 for the normal operating level.
Note:
Remote indication is available at pin 3 of D-range 1.
3.7.2
Reverse Power
Power up the T838/839 and adjust RV109 (front panel power control) for the normal operating power level.
Place a known mismatch of the required value (e.g. 3:1 VSWR) and adjust RV105
(reverse power alarm set) so that the reverse power alarm LED lights.
Example:
A VSWR of 3:1 can be simulated by connecting an unterminated 3dB pad
(100W) to the PA output. This will result in a return loss of 6dB.
Note:
Remote indication is available at pin 4 of D-range 1.
01/07/00
Copyright TEL
T838/839 Fault Finding
M830P-00
D4.1
T838/839 Fault Finding
Caution:
This equipment contains CMOS devices which are susceptible to damage from static charges. Refer to Section 1.2 in Part A for more information on anti-static procedures when handling these devices.
The following test procedures and fault finding flow charts may be used to help locate a
hardware problem, however they are by no means a complete fault finding procedure.
If you still cannot trace the fault after progressing through them in a logical manner,
contact your nearest Tait Dealer or Customer Service Organisation. If necessary, you can
get additional technical help from Customer Support, Radio Systems Division, Tait Electronics Ltd, Christchurch, New Zealand (full contact details are on page 2).
Refer to Section 5 where the parts lists, grid reference index and diagrams will provide
detailed information on identifying and locating components.
The following topics are covered in this section.
Section
Title
Page
4.1
Visual Checks
4.3
4.2
DC Checks
4.3
4.3
RF Checks
4.3
4.4
Fault Finding Charts
4.7
4.4.1
T838 PA
4.7
4.4.2
T839 PA
4.8
4.4.3
Power Control
4.9
4.4.4
Fan Control Circuitry
4.10
4.5
Replacing RF Power Modules
4.11
4.6
Removing The PCB From The Heatsink
4.12
Figure
4.1
Copyright TEL
Title
Positioning Of Test Leads
Page
4.6
01/07/00
D4.2
01/07/00
T838/839 Fault Finding
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Copyright TEL
T838/839 Fault Finding
M830P-00
4.1
D4.3
Visual Checks
Remove the side cover from the T838/839 and inspect the PCB for damaged or
broken components, paying particular attention to the surface mounted devices
(SMDs). Also check for defective solder joints.
Refer to Section 4.5, Section 4.6 and Section 3 of Part A for more details on repair
and replacement of components.
4.2
DC Checks
Check that +13.8V is present on pin 3 of *#IC202 and/or #IC201. Make this measurement when the transmitter is not keyed.
Check that approximately 6-13V is present on pin 2 of *#IC202 and/or #IC201 (the
level is dependent on the setting of RV109).
Check that +13.8V is present at pin 4 of IC103.
Check that approximately +12V is present at pin 8 of IC105 (the level is dependent
on the setting of RV109).
Check that +7.0V is present at the output of regulator IC109.
4.3
RF Checks
The PA Fault Finding Charts (Section 4.4.1 & Section 4.4.2) provide a systematic
approach for locating a fault in the RF circuitry. Use these charts in conjunction with
Figure 4.1, which shows the locations of the 50Ω input and output test points for RF
power modules #IC201 and *#IC202.
Note 1:
Use good quality 50Ω coax for the "flying" test leads.
Note 2:
Ensure each output is terminated in a 50Ω load of the correct power rating.
For problems with the power control circuitry, refer to the Power Control Fault Finding
Chart (Section 4.4.3).
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01/07/00
D4.4
01/07/00
T838/839 Fault Finding
M830P-00
Copyright TEL
M830P-00
T838/839 Fault Finding
D4.5
replace A4 pages D4.5/D4.6 with A3 pages D4.5/D4.6
Copyright TEL
01/07/00
D4.6
T838/839 Fault Finding
M830P-00
replace A4 pages D4.5/D4.6 with A3 pages D4.5/D4.6
01/07/00
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T838/839 Fault Finding
M830P-00
4.4
Fault Finding Charts
4.4.1
T838 PA
RF circuitry OK.
D4.7
Is maximum power >50W
over entire frequency range?*
Is RV109
fully clockwise?
Rotate RV109
fully clockwise.
Rotate RV115
fully clockwise.
Is RV115
fully clockwise?
Is the PA keyed?
(D-range pin 12 low)
Earth D-range pin 12 or
connect to exciter key line.
Is #IC201 pin 2 >10V?
Is #IC201 pin 3 >13V?
Replace Q135 & Q137,
then check #IC201 pin 2
for short circuit.
Is the drive from the
exciter 600mW-1W?
Set drive to
600mW-1W.
Is the output from
#IC201 >60W?
Refer to Figure 4.1.
Check #IC201 solder joints.
If joints OK, replace module.
Set RV115 to 60W
(driver power clamp).
Set RV109 to required
output power.
Refer to Section 3.3.
Check components in LPF.
Check output N-type connector
for short circuit or excessive wear.
Replace parts as necessary.
Is maximum power >50W
over entire frequency range?*
*Frequency
Range
*Frequency Ranges
Return PA to your local
Tait service centre.
Copyright TEL
T838-10: 136-156MHz
T838-20:
148-174MHz
T838-20: 148-174MHz
01/07/00
D4.8
T838/839 Fault Finding
4.4.2
T839 PA
RF circuitry OK.
M830P-00
Is maximum power >100W
over entire frequency range?*
Is RV109
fully clockwise?
Rotate RV109
fully clockwise.
Rotate RV115
fully clockwise.
Is RV115
fully clockwise?
Is the PA keyed?
(D-range pin 12 low)
Earth D-range pin 12 or
connect to exciter key line.
Is #IC201/*#IC202 pin 2 >10V?
Is #IC201/*#IC202 pin 3 >13V?
Replace Q135 & Q137,
then check #IC201/*#IC202
pin 2 for short circuit.
Is the drive from the
exciter 600mW-1W?
Set drive to
600mW-1W.
Is *R223 hot to touch
when PA keyed?
Check components in LPF.
Check output N-type connector
for short circuit or excessive wear.
Replace parts as necessary.
Is the output from #IC201
and *#IC202 >60W per module
(measured concurrently)?
Refer to Figure 4.1.
Check #IC201/*#IC202 solder joints.
If joints OK, replace module(s).
Check the condition of
splitter hybrid *IC203.
Are there any shorts
on the legs or broken legs?
Replace splitter hybrid.
Set RV115 to 120W
(driver power clamp).
Set RV109 to required
output power.
Refer to Section 3.3.
Check the condition of
combiner hybrid *IC205.
Are there any shorts
on the legs or broken legs?
Replace combiner hybrid.
Is maximum power >100W
over entire frequency range?*
*Frequency
Range
*Frequency Ranges
Return PA to your local
Tait service centre.
01/07/00
T839-10: 136-156MHz
T839-20:
148-174MHz
T839-20: 148-174MHz
Copyright TEL
T838/839 Fault Finding
M830P-00
4.4.3
D4.9
Power Control
Approximate voltages (@ 174MHz) under normal operating conditions:
Output Power
Forward & Reverse Power
Measurement
50W
100W
forward power at IC103 pin 1
2.3V
3.3V
forward power at C261
4.1V
6.0V
reverse power at IC103 pin 8
0.6V
0.6V
reverse power at C294
0.3V
0.6V
Caution
The following voltage checks are all done with
RV115 (driver power clamp) set to maximum.
When these tests are finished, reset RV115
to 60W (T838) or 120W (T389).
RF Power Level Control Check
Using RV109, does output power
adjust over the range:
T838 10-60W
T839 20-120W?
Check 12V DC present
on IC105 pin 8.
Check sense voltages
from directional coupler.
Check IC103 pins 1 & 8.
Low Forward Power Alarm Check
Using RV109, does low forward
power alarm LED light when
output power reduced to:
T838 40W
T839 80W?
Check Q117 & Q121.
Check IC103 pin 14 >12V DC
when forward power low.
High Reverse Power Alarm Check
Does high reverse power alarm
LED light when PA operated into
a mismatch of 3:1 or worse?
Check Q129 & Q131.
Check IC103 pin 7 >12V DC
when reverse power high.
Over-Temperature Shutdown Check
At high operating temperatures,
does the output power reduce to:
T838 14W
T839 40W?
Power control OK.
Copyright TEL
Earth IC101 pin 9.
Check IC103 pin 13 is at 0.6V.
Check IC103 pin 14 goes from
high to low when IC101 pin 9
is earthed. Check Q133.
Note:
A final confirmation of high temperature
shutdown and/or T839 fan activation at
high temperatures can be obtained by
heating the earth pad of R237 to >130°C
with the tip of a soldering iron. Take care
not to damage R237.
01/07/00
D4.10
T838/839 Fault Finding
4.4.4
T839 Fan Control Circuitry
M830P-00
Key transmitter.
Does fan run at
room temperature?
Check *Q103 & *Q105
collector voltages.
Check *Q107 & *Q109.
Check IC101 pin 1 <1V.
Check *Q101.
Check Tx-key is low (at ground).
Spray "freeze" on *R116
OR short R118.
Does the low temperature
inhibit circuit stop the fan?
Spray "freeze" on *R116
OR short R118.
Check IC101 pin 1 >11V.
Check *Q105 & *Q103.
Do not key
transmitter.
Earth IC101 pin 9
(see Section 3.5).
3.4).
Does high temperature control
circuit activate fan?
Earth IC101 pin 9
(see Section 3.5).
3.4).
Check IC101 pin 14 >11V.
Check *Q105 & *Q103.
Fan control OK.
01/07/00
Copyright TEL
T838/839 Fault Finding
M830P-00
4.5
D4.11
Replacing RF Power Modules
Caution:
Follow these instructions carefully, otherwise the module can fail
because of poor heatsinking or cracked substrates.
Caution:
Do not apply too much heat to the original type of thermistor assembly
as the epoxy used may give off fumes that will cause eye irritation. If
necessary, replace this device as a complete assembly (see note 1 below).
Desolder the module and thermistor1 legs by heating with a soldering iron and
lifting away from the PCB with a screwdriver or thin stainless steel spike.
Undo the module screws and remove the thermistor assembly.
Desolder and remove both earth tags.
Gently lift the module away from the heatsink.
The module may be stuck down quite firmly with heatsink compound. You
may need to carefully prise it away from the heatsink with a small screwdriver. Keep the heatsink compound clean while the module is detached.
Note:
Apply a small amount of heatsink compound (Dow-Corning 340 or equivalent) to
the replacement module mounting surface. Use enough compound to ensure an
even film over the entire mounting surface.
Reposition the module in the correct orientation and ensure it is well pasted to the
heatsink.
Replace the earth tags and thermistor1 assembly in their original positions and
hand-tighten the screws, ensuring the tags and thermistor remain in place. Alternately tighten each screw evenly, finally torquing them down to 56N.cm/5in.lbf.
with an accurate torque driver.
Caution:
It is essential that you apply the correct torque to these screws to allow
the module flange to expand and contract under temperature cycling.
Also, do not solder any module legs before torquing down otherwise
the device may be broken.
Solder all module legs to the PCB.
Carefully solder the thermistor leg to the PCB1.
1. Later production PAs are fitted with a different type of thermistor which you
do not need to desolder from the PCB before removing a power module. Refer
to the top side PCB layout diagrams in Sections 5.2 and 5.3 for further details.
Copyright TEL
01/07/00
D4.12
T838/839 Fault Finding
4.6
Removing The PCB From The Heatsink
Note:
This is a lengthy procedure and should be considered only after all other
checks have been carried out. There are no components on the bottom of the
PCB.
M830P-00
Remove the harmonic filter shield lid.
T839 Only:
Desolder the power feed to the fan from the PCB.
Remove the output 50 ohm coaxial connector by unscrewing it from the heatsink
casting and desoldering it from the PCB and harmonic filter shield wall.
Unplug the input 50 ohm coaxial cable from the PCB, unscrew the BNC connector
from the heatsink, and remove the connector and cable.
Desolder the positive and negative power feed wires from the D-range PCB.
Disconnect the ribbon cable from the D-range PCB.
Remove the 2 screws securing the D-range connector and PCB to the heatsink and
withdraw the assembly from the heatsink.
Remove the mounting screws for the TO-220 device(s): Q137 (and *R223 in the
T839).
Remove the screws securing the RF power module(s): #IC201 (and *#IC202 in the
T839).
T839 Only:
Remove the four hex nuts and washers from the splitter/combiner hybrids (*IC203 and *IC205).
Remove the 11 PCB retaining screws.
Push the three LEDs out of their front panel grommets.
Lift the PCB gently from the heatsink to gain access to the underside of the board.
Note:
#IC201, *#IC202 and *R223 may be stuck down with heatsink compound.
You may need to carefully prise them away from the heatsink with a small
screwdriver.
Caution:
Keep the heatsink compound clean while the PCB is detached. Any
objects caught in the heatsink compound underneath the module
which prevent effective earthing and/or heatsinking will cause catastrophic failure.
Caution:
Do not operate the PA with the PCB detached as the heatsink is used
for earthing and heat dissipation.
01/07/00
Copyright TEL
M830P-00
T838/839 Fault Finding
D4.13
To replace the PCB, reverse the order of removal, taking care that the wiring is correctly positioned and not 'pinched'.
Make sure that the heatsink compound has stayed clean, and that the insulating
pad for Q137 is not damaged.
If you have difficulty refitting the LEDs, try pushing the body of the LED back
into the grommet with a thin screwdriver or spike.
Caution:
Tighten the splitter/combiner hybrid hex nuts to a torque of 22N.cm/
2in.lbf. Any greater force will damage the devices.
Tighten the RF power module screws to a torque of 56N.cm/5in.lbf.
with an accurate torque driver. Deviating from this figure can cause
the device to fail (refer to Section 4.5).
Copyright TEL
01/07/00
D4.14
01/07/00
T838/839 Fault Finding
M830P-00
Copyright TEL
T838/839 PCB Information
M830P-00
D5.1.1
T838/839 PCB Information
Caution:
This equipment contains CMOS devices which are susceptible to damage from
static charges. Refer to Section 1.2 in Part A for more information on anti-static
procedures when handling these devices.
This section provides the following information on the T838 and T839 power amplifiers:
• parts lists
• grid reference indexes
• mechanical assembly drawings
• PCB layouts
• circuit diagrams.
Section
Title
IPN
Page
5.1
Introduction
5.1.3
5.2
T838 Power Amplifier PCB
220-01404-03
5.2.1
5.3
T839 Power Amplifier PCB
220-01404-03
5.3.1
The T838 and T839 share the same basic design and are built on the same PCB. However, in order to
simplify the presentation of the PCB information for each product, we have provided a separate
parts list, grid reference index and set of drawings for both the T838 and T839, even though this has
meant duplicating some information (e.g. grid reference index and circuit diagrams) in each section.
Copyright TEL
01/07/00
D5.1.2
01/07/00
T838/839 PCB Information
M830P-00
Copyright TEL
T838/839 PCB Information
M830P-00
5.1
D5.1.3
Introduction
Product Type Identification
You can identify the PA type by checking the product code printed on a label on the rear of the heatsink (product codes are explained in Section 1.3 in this Part of the manual, and Figure 1.1 in Part A
shows typical labels). You can further verify the PA type by checking the placement of an SMD
resistor in the table that is screen printed onto the PCB, similar to the example drawn below. In this
example, the resistor indicates that the product was built as a T830 Series II compatible
T839-20-XXXX.
Note:
PRODUCT TYPE
MODEL
REV
T839-10
3A
T839-20
3A
T838-10
3A
T838-20
3A
SERIES
SERIES
II
The only function of this
resistor is to indicate the
product type. It has no
effect on the circuitry or
operation of the PA.
PCB Identification
All PCBs are identified by a unique 10 digit “internal part number” (IPN), e.g. 220-12345-00, which
is screen printed onto the PCB (usually on the top side), as shown in the example below:
The last 2 digits of this number define the issue status, which starts at 00 and increments through 01,
02, 03, etc. as the PCB is updated. Some issue PCBs never reach full production status and are therefore not included in this manual. A letter following the 10 digit IPN has no relevance in identifying
the PCB for service purposes.
Note:
Copyright TEL
It is important that you identify which issue PCB you are working on so that you can
refer to the appropriate set of PCB information.
01/07/00
D5.1.4
T838/839 PCB Information
M830P-00
Parts Lists
The 10 digit numbers (000-00000-00) in this Parts List are “internal part numbers” (IPNs). We can
process your spare parts orders more efficiently and accurately if you quote the IPN and provide a
brief description of the part.
The components listed in this parts list are divided into two main types: those with a circuit reference (e.g. C2, D1, R121, etc.) and those without (miscellaneous and mechanical).
Those with a circuit reference are grouped in alphabetical order and then in numerical order within
each group. Each component entry comprises three or four columns, as shown below:
circuit reference lists components
in alphanumeric
order
variant column indicates that this is
a variant component
which is fitted only to
the product type listed
description gives a brief description
of the component
Internal Part Number order the component
by this number
The mechanical and miscellaneous section lists the variant and common parts in IPN order.
Parts List Amendments
At the front of the parts list is the Parts List Amendments box (an example of which is shown
below). This box contains a list of component changes which took place after the parts list and diagrams in this section were compiled. These changes (e.g. value changes, added/deleted components, etc.) are listed by circuit reference in alphanumeric order and supersede the information
given in the parts list or diagrams. Components without circuit references are listed in IPN order.
The number in brackets at the end of each entry refers to the Tait internal Change Order document.
IPN of new
component
Change Order
number
Parts List Amendments
R306
Changed from 180Ω to 560Ω (036-13560-00) to increase sensitivity (71003).
circuit reference
or IPN
description
of change
01/07/00
Copyright TEL
T838/839 PCB Information
M830P-00
D5.1.5
Variant Components
A variant component is one that has the same circuit reference but different value or specification in
different product types. Where two products share the same PCB, the term “variant” is also used to
describe components unplaced in one product. Variant components have a character prefix, such as
“&”, “=” or “#”, before the circuit reference (e.g. &R100).
The table below explains the variant prefixes used in T800 Series II products:
If the variant prefix is. . .
the component will. . .
change according to channel spacing
change according to frequency stability
change according to frequency range
change or be placed/unplaced for special applications
be unplaced in one product
(where two products share the same PCB)
Grid Reference Index
This section contains a component grid reference index to help you find components and labelled
pads on the PCB layouts and circuit diagrams. This index lists the components and pads in alphanumeric order, along with the appropriate alphanumeric grid references, as shown below:
components listed
in alphanumeric order
PCB layout
reference
circuit diagram
reference
component location
on the sheet
sheet number
component location
on the layer
layer number 1 = top side layer
2 = bottom side layer
Copyright TEL
01/07/00
D5.1.6
T838/839 PCB Information
M830P-00
Using CAD Circuit Diagrams
Reading a CAD circuit diagram is similar to reading a road map, in that both have an alphanumeric
border. The circuit diagrams in this manual use letters to represent the horizontal axis, and numbers for the vertical axis. These circuit diagram “grid references” are useful in following a circuit
that is spread over two or more sheets.
When a line representing part of the circuitry is discontinued, a reference will be given at the end of
the line to indicate where the rest of the circuitry is located, as shown below. The first digit refers to
the sheet number and the last two characters refer to the location on that sheet of the continuation of
the circuit (e.g. 1R3).
DISCRIMINATOR
1R3
2R9
2R9
8A2
C371
%R338
100
10U
R339
100K
C369
100P
these grid references
show where the circuit
is continued
01/07/00
C301
4N7
R303
L310
33U
4R4
G S
IF-SIG
12
Copyright TEL
T838 PCB Information
M830P-00
5.2
D5.2.1
T838 Power Amplifier PCB
This section contains the following information.
IPN
220-01404-03
Copyright TEL
Section
Page
Parts List
5.2.3
Mechanical & Miscellaneous Parts
5.2.8
Mechanical Assembly
5.2.9
Grid Reference Index
5.2.11
PCB Layout - Bottom Side
5.2.13
PCB Layout - Top Side
5.2.14
Control Section Circuit Diagram
5.2.15
RF & Thermistor Control Sections Circuit Diagram
5.2.16
01/07/00
D5.2.2
01/07/00
T838 PCB Information
M830P-00
Copyright TEL
IPN 220-01404-03
T838 PCB Information
M830P-00
D5.2.3
T838 Parts List (IPN 220-01404-03)
How To Use This Parts List
The components listed in this parts list are divided into two main types: those with a circuit reference (e.g. C2, D1, R121, etc.) and
those without (miscellaneous and mechanical).
Those with a circuit reference are grouped in alphabetical order and then in numerical order within each group. Each component
entry comprises three or four columns: the circuit reference, variant (if applicable), IPN and description. A number in the variant column indicates that this is a variant component which is fitted only to the product type listed. Static sensitive devices are indicated by
an (S) at the start of the description column.
The miscellaneous and mechanical section lists the variant and common parts in IPN order. Where possible, a number in the legend
column indicates their position in the mechanical assembly drawing.
The Parts List Amendments box below lists component changes that took place after the parts list and diagrams in this section were
compiled. These changes (e.g. value changes, added/deleted components, etc.) are listed by circuit reference in alphanumeric order
and supersede the information given in the parts list or diagrams. Components without circuit references are listed in IPN order.
Parts List Amendments
D101, D105
Removed from the main PCB and replaced by two 1N4148 diodes (IPN 001-50012-00) placed on the D-range
PCB: one soldered between PL101 pins 5 and 7 (cathode), the other between PL101 pins 6 and 8 (cathode). To
allow external power meters to read zero and still provide meter overvoltage protection (710978).
D113
Changed from MR750 (IPN 001-00011-60) to MR2520L (IPN 001-00012-90) to provide overvoltage transient suppression (750087/88/89/90/91/92).
IC204
Changed from LMC622CM to LM358 (710382).
R123, R158
Changed from 1k resistors (IPN 036-14100-00) to BA592 diodes (IPN 001-10059-20) to allow external power
meters to read zero (710978).
R207
Changed from 47k (IPN 036-15470-10) to 4k7 (IPN 036-14470-10)
R209
Changed from 1k5 (IPN 036-14150-10) to 390Ω (IPN 036-13390-10)
R210
Changed from 4k7 (IPN 036-14470-10) to 390Ω (IPN 036-13390-10)
R213
Changed from 3k9 (IPN 036-14390-00) to 560Ω (IPN 036-13560-00)
R218
Changed from 390Ω (IPN 036-13390-10) to 100Ω (IPN 036-13100-10)
R219
Changed from 100k NTC (IPN 045-06100-05) to 10k NTC (IPN 045-05100-02)
R220
Changed from 47k (IPN 036-15470-10) to 4k7 (IPN 036-14470-10)
R222
Changed from 47k (IPN 036-15470-10) to 4k7 (IPN 036-14470-10)
R224
Changed from 1k5 (IPN 036-14150-10) to 390Ω (IPN 036-13390-10)
R228
Changed from 4k7 (IPN 036-14470-10) to 390Ω (IPN 036-13390-10)
R229
Changed from 56k (IPN 036-15560-10) to 6k8 (IPN 036-14680-10)
349-00020-36
The two M3x8 Torx screws which secure the module into the rack frame have been replaced by M3x8 Pozidriv
screws (IPN 349-00020-55) (750101/2/3/5/6).
Copyright TEL
100k thermistor assembly
replaced with 10k item;
values of associated components changed accordingly
(710394/411/447).
01/07/00
IPN 220-01404-03
D5.2.4
T838 PCB Information
M830P-00
Parts List Amendments - Continued
This page is provided for entering future amendments to the parts list.
01/07/00
Copyright TEL
IPN 220-01404-03
T838 PCB Information
M830P-00
Ref
Note:
Var
IPN
Description
The T838 and T839 share the same basic design and
are built on the same PCB. While most components in
this design are common to both products, there are a
number of components that are placed in only one product.
Because the circuit diagrams for this design cover both
products, we have indicated on the diagrams those
components which are placed only in the T838 by
enclosing them in a labelled box. The circuit reference
for each of these components is also prefixed with the
“*”character.
The “*” character is used in this parts list to indicate
components used only in the T838.
C129
C131
C132
C133
C137
C138
C139
C141
C143
C145
C147
C149
C151
C153
C155
C159
C161
C162
C164
C165
C167
C169
C171
C173
C174
C176
C178
C179
C180
C181
C182
C184
C185
C186
C187
C188
C189
C190
C192
C193
C195
C201
*C203
*C204
C205
*C206
C207
C215
C216
C218
C220
C221
C222
C223
C224
C225
C226
C227
C229
C259
C261
C268
C270
C271
C272
C273
C294
C295
C297
C298
015-23680-08
015-27100-10
015-24100-08
015-23680-08
015-23680-08
015-24470-08
015-23680-08
014-07100-02
015-23680-08
015-23680-08
015-24470-08
015-23680-08
015-23680-08
015-23680-08
015-25100-08
015-23680-08
015-23680-08
015-23680-08
015-24470-08
015-23680-08
015-24100-08
014-07470-03
015-24470-08
015-23680-08
015-23680-08
015-06100-08
015-25100-08
015-06150-08
015-23680-08
015-23100-01
015-24470-08
015-25100-08
015-23680-08
015-23680-08
015-06100-08
014-08100-00
015-25100-08
015-23680-08
015-06100-08
015-06100-08
014-08100-00
014-07470-03
015-03680-06
015-03680-06
015-06100-08
015-03680-06
015-06100-08
015-23680-08
015-24470-08
015-23680-08
015-23680-08
015-06100-08
015-24470-08
015-24100-08
015-23680-08
015-03680-06
015-23680-08
015-03680-06
015-03680-03
015-23680-08
015-24470-08
029-02220-02
029-02560-03
029-02470-03
029-02560-03
029-02220-02
015-23680-08
015-24470-08
015-23680-08
015-24470-08
CAP CER 0805 680P 10% X7R 50V
CAP CER 0805 1M+80-20% Y5V 16V
CAP CER 0805 1N 10% X7R 50V
CAP CER 0805 680P 10% X7R 50V
CAP CER 0805 680P 10% X7R 50V
CAP CER 0805 4N7 10% X7R 50V
CAP CER 0805 680P 10% X7R 50V
CAP TANT CHIP 1U0 3.2 X 1.6MM
CAP CER 0805 680P 10% X7R 50V
CAP CER 0805 680P 10% X7R 50V
CAP CER 0805 4N7 10% X7R 50V
CAP CER 0805 680P 10% X7R 50V
CAP CER 0805 680P 10% X7R 50V
CAP CER 0805 680P 10% X7R 50V
CAP CER 0805 10N 10% X7R 50V
CAP CER 0805 680P 10% X7R 50V
CAP CER 0805 680P 10% X7R 50V
CAP CER 0805 680P 10% X7R 50V
CAP CER 0805 4N7 10% X7R 50V
CAP CER 0805 680P 10% X7R 50V
CAP CER 0805 1N 10% X7R 50V
L) CAP TANT SMD 4U7 35V 20%
CAP CER 0805 4N7 10% X7R 50V
CAP CER 0805 680P 10% X7R 50V
CAP CER 0805 680P 10% X7R 50V
CAP CER 1206 100N 10% X7R 50V
CAP CER 0805 10N 10% X7R 50V
CAP CER1206150N10% X7R25VW 25V
CAP CER 0805 680P 10% X7R 50V
CAP CER 0805 100P 5% NPO 50V
CAP CER 0805 4N7 10% X7R 50V
CAP CER 0805 10N 10% X7R 50V
CAP CER 0805 680P 10% X7R 50V
CAP CER 0805 680P 10% X7R 50V
CAP CER 1206 100N 10% X7R 50V
CAP TANT CHIP 10M 16VW +-20%
CAP CER 0805 10N 10% X7R 50V
CAP CER 0805 680P 10% X7R 50V
CAP CER 1206 100N 10% X7R 50V
CAP CER 1206 100N 10% X7R 50V
CAP TANT CHIP 10M 16VW +-20%
L) CAP TANT SMD 4U7 35V 20%
CAP CER 1210 680P NPO200VGRM42
CAP CER 1210 680P NPO200VGRM42
CAP CER 1206 100N 10% X7R 50V
CAP CER 1210 680P NPO200VGRM42
CAP CER 1206 100N 10% X7R 50V
CAP CER 0805 680P 10% X7R 50V
CAP CER 0805 4N7 10% X7R 50V
CAP CER 0805 680P 10% X7R 50V
CAP CER 0805 680P 10% X7R 50V
CAP CER 1206 100N 10% X7R 50V
CAP CER 0805 4N7 10% X7R 50V
CAP CER 0805 1N 10% X7R 50V
CAP CER 0805 680P 10% X7R 50V
CAP CER 1210 680P NPO200VGRM42
CAP CER 0805 680P 10% X7R 50V
CAP CER 1210 680P NPO200VGRM42
CAP CER 680P 5% NPO100V GRH111
CAP CER 0805 680P 10% X7R 50V
CAP CER 0805 4N7 10% X7R 50V
CAP MICA 5 CASE 22P 5%
CAP MICA 10 CASE 56P 2%
CAP MICA 10 CASE 47P 2%
CAP MICA 10 CASE 56P 2%
CAP MICA 5 CASE 22P 5%
CAP CER 0805 680P 10% X7R 50V
CAP CER 0805 4N7 10% X7R 50V
CAP CER 0805 680P 10% X7R 50V
CAP CER 0805 4N7 10% X7R 50V
D101
001-10000-70
(S) DIODE SMD BAV70 D-SW SOT23
Copyright TEL
Ref
IPN
Description
D103
D105
D107
D109
D111
D113
D201
D202
D203
Var
008-00013-32
001-10000-70
008-00013-35
008-00013-32
001-10000-70
001-00011-60
001-00013-45
001-10000-70
001-00013-45
(S) LED 3 RED LO CURRENT NO MTG
(S) DIODE SMD BAV70 D-SW SOT23
(S) LED 3 GRN LO CURRENT NO MTG
(S) LED 3 RED LO CURRENT NO MTG
(S) DIODE SMD BAV70 D-SW SOT23
(S) DIODE SR2607 -- USE MR750
(S) DIODE SCHTTKY 1SS97/2
(S) DIODE SMD BAV70 D-SW SOT23
(S) DIODE SCHTTKY 1SS97/2
IC101
IC103
IC105
IC107
IC109
#IC201
#IC201
IC204
002-10003-24
002-10003-24
002-10003-58
002-10003-17
002-10003-17
004-00687-02
004-00687-03
002-10006-62
(S) IC SMD 324 4X O-AMP SO14
(S) IC SMD 324 4X O-AMP SO14
(S) IC SMD LM358 DUAL O-AMP
(S) IC LM317L REG S0-8 100MA
(S) IC LM317L REG S0-8 100MA
MODULE M68702L 135-160MHZ 60W
MODULE M68702H 150-174MHZ 60W
(S)IC SMD LMC662CM 2X O-AMP
L101
L103
L105
*L201
L203
L206
L208
L215
L217
L233
L239
L241
L243
L245
L247
L248
L249
L264
065-10004-20
065-10004-20
065-10004-20
056-10330-02
065-10004-20
056-14150-02
056-14150-02
052-08340-40
052-08340-40
056-10330-02
056-10330-02
052-08360-20
052-08340-20
052-08345-10
052-08340-20
052-08345-10
052-08360-20
056-10330-02
BEAD FE SMD CBD 4.6/3/3-4S2
BEAD FE SMD CBD 4.6/3/3-4S2
BEAD FE SMD CBD 4.6/3/3-4S2
(L) IND SMD 330NH
BEAD FE SMD CBD 4.6/3/3-4S2
(L) IND SMD 1.5UH
(L) IND SMD 1.5UH
COIL A/W 4T/4.0MM SMD 0.8MM
COIL A/W 4T/4.0MM SMD 0.8MM
(L) IND SMD 330NH
(L) IND SMD 330NH
COIL A/W 2T/6.0MM SMD 0.8MM
COIL A/W 2T/4.0MM SMD 0.8MM
COIL A/W 1T/4.5MM SMD 0.8MM
COIL A/W 2T/4.0MM SMD 0.8MM
COIL A/W 1T/4.5MM SMD 0.8MM
COIL A/W 2T/6.0MM SMD 0.8MM
(L) IND SMD 330NH
LINK1
LINK2
LINK201
240-00020-68
036-10000-00
240-00020-59
HEADER 2W PCB MTG STD
RES M/F 0805 ZERO OHM
HEADER 3 W 1 R PCB MTG
PL101
240-00010-55
PLUG 15 W D RANGE W/W PNL MT
Q111
Q113
Q115
Q117
Q119
Q121
Q123
Q125
Q127
Q129
Q131
Q133
Q135
Q136
Q137
Q201
000-10008-57
000-10008-48
000-10008-57
000-10008-17
000-10008-48
000-10017-00
000-10008-57
000-10008-57
000-10008-57
000-10008-17
000-10017-00
000-10008-48
000-10008-17
000-10008-17
000-00030-95
000-10008-48
(S) XSTR SMD BCW70 PNP SOT23 SS
(S) XSTR SMD BCW60 NPN SOT23 SS
(S) XSTR SMD BCW70 PNP SOT23 SS
(S) XSTR SMD BC817-25 NPN SOT23
(S) XSTR SMD BCW60 NPN SOT23 SS
LS) XSTR SMD BF170LT1 SOT23
(S) XSTR SMD BCW70 PNP SOT23 SS
(S) XSTR SMD BCW70 PNP SOT23 SS
(S) XSTR SMD BCW70 PNP SOT23 SS
(S) XSTR SMD BC817-25 NPN SOT23
LS) XSTR SMD BF170LT1 SOT23
(S) XSTR SMD BCW60 NPN SOT23 SS
(S) XSTR SMD BC817-25 NPN SOT23
(S) XSTR SMD BC817-25 NPN SOT23
(S) XSTR 2N6107 PNP TO220 AF
(S) XSTR SMD BCW60 NPN SOT23 SS
R101
R103
R104
R117
R118
R119
R123
R124
R125
R126
R127
R128
R129
R130
R131
R132
R133
R134
R135
R136
R137
R138
R141
R142
R143
R144
R145
R146
R148
R149
R150
R151
R152
R153
R154
R155
R156
036-14100-00
036-15330-00
036-16470-00
036-16220-00
036-15270-00
036-16470-00
036-14100-00
036-16100-00
036-15100-00
036-14100-00
036-15100-00
036-15220-00
036-17100-00
036-14220-00
036-16180-00
036-14100-00
036-15100-00
036-13470-00
036-13680-00
036-15100-00
036-13470-00
036-15100-00
036-15100-00
036-15100-00
036-15100-00
036-15820-00
036-15470-00
036-14180-00
036-14820-00
036-13470-00
036-12220-00
036-15100-00
036-15100-00
036-14680-00
036-14680-00
036-13220-00
036-13100-00
RES M/F 0805 1K 5%
RES M/F 0805 33K 5%
RES M/F 0805 470K 5%
RES M/F 0805 220K 5%
RES M/F 0805 27K 5%
RES M/F 0805 470K 5%
RES M/F 0805 1K 5%
RES M/F 0805 100K 5%
RES M/F 0805 10K 5%
RES M/F 0805 1K 5%
RES M/F 0805 10K 5%
RES M/F 0805 22K 5%
RES M/F 0805 1M 5%
RES M/F 0805 2K2 5%
RES M/F 0805 180K 5%
RES M/F 0805 1K 5%
RES M/F 0805 10K 5%
RES M/F 0805 470E 5%
RES M/F 0805 680E 5%
RES M/F 0805 10K 5%
RES M/F 0805 470E 5%
RES M/F 0805 10K 5%
RES M/F 0805 10K 5%
RES M/F 0805 10K 5%
RES M/F 0805 10K 5%
RES M/F 0805 82K 5%
RES M/F 0805 47K 5%
RES M/F 0805 1K8 5%
RES M/F 0805 8K2 5%
RES M/F 0805 470E 5%
RES M/F 0805 22E 5%
RES M/F 0805 10K 5%
RES M/F 0805 10K 5%
RES M/F 0805 6K8 5%
RES M/F 0805 6K8 5%
RES M/F 0805 220E 5%
RES M/F 0805 100E 5%
10
20
D5.2.5
01/07/00
IPN 220-01404-03
D5.2.6
Ref
Var
T838 PCB Information
IPN
Description
R157
R158
R159
R160
R161
R162
R163
R164
R165
R166
R168
R169
R170
R171
R172
R173
R174
R175
R176
R177
R178
R179
R180
R181
R182
R183
R184
R185
R186
R187
R188
R189
R190
R191
R192
R193
R194
R195
R196
R197
*R201
*R202
R203
*R204
R205
R207
R209
R210
R212
R213
R214
R218
R219
036-12220-00
036-14100-00
036-15100-00
036-14470-00
036-14100-00
036-17100-00
036-13680-00
036-14220-00
036-14100-00
036-13680-00
036-15100-10
036-14100-00
036-14100-00
036-14100-00
036-15100-10
036-13470-00
036-13220-00
036-16220-00
036-15100-00
036-14470-00
036-16100-00
036-15100-00
036-16150-00
036-14560-00
036-16100-00
036-14470-00
036-14100-00
036-03100-02
036-13100-00
036-03150-03
036-13220-00
036-12100-00
036-12220-00
036-14100-10
036-13220-10
036-12100-00
036-03220-03
036-14220-00
036-13100-00
036-10000-00
036-03330-03
036-02100-03
036-02100-02
036-03330-03
036-02100-02
036-15470-10
036-14150-10
036-14470-10
036-15100-00
036-14390-00
036-14470-00
036-13390-10
R220
R222
R224
R225
R228
R229
R231
R237
036-15470-10
036-15470-10
036-14150-10
030-03120-00
036-14470-10
036-15560-10
030-03120-00
045-04470-00
RES M/F 0805 22E 5%
RES M/F 0805 1K 5%
RES M/F 0805 10K 5%
RES M/F 0805 4K7 5%
RES M/F 0805 1K 5%
RES M/F 0805 1M 5%
RES M/F 0805 680E 5%
RES M/F 0805 2K2 5%
RES M/F 0805 1K 5%
RES M/F 0805 680E 5%
RES M/F 0805 10K 1%
RES M/F 0805 1K 5%
RES M/F 0805 1K 5%
RES M/F 0805 1K 5%
RES M/F 0805 10K 1%
RES M/F 0805 470E 5%
RES M/F 0805 220E 5%
RES M/F 0805 220K 5%
RES M/F 0805 10K 5%
RES M/F 0805 4K7 5%
RES M/F 0805 100K 5%
RES M/F 0805 10K 5%
RES M/F 0805 150K 5%
RES M/F 0805 5K6 5%
RES M/F 0805 100K 5%
RES M/F 0805 4K7 5%
RES M/F 0805 1K 5%
RES 100E 1206 200V 250MW RC01
RES M/F 0805 100E 5%
RES 1218 PWR CHIP 150E 20% 1W
RES M/F 0805 220E 5%
RES M/F 0805 10E 5%
RES M/F 0805 22E 5%
RES M/F 0805 CHIP 1K 1%
RES 0805 220E 1%
RES M/F 0805 10E 5%
RES 1218 PWR CHIP 220E 20% 1W
RES M/F 0805 2K2 5%
RES M/F 0805 100E 5%
RES M/F 0805 ZERO OHM
L) RES 1218 PWR 330E 20% 1W
L) RES 1218 PWR 10E 20% 1W
RES 10E 1206 200V 250MW RC01
L) RES 1218 PWR 330E 20% 1W
RES 10E 1206 200V 250MW RC01
RES M/F 0805 47K 1%
RES MF 0805 CHIP 1K5 1%
RES M/F 0805 CHIP 4K7 1%
RES M/F 0805 10K 5%
RES M/F 0805 3K9 5%
RES M/F 0805 4K7 5%
RES MF 0805 CHIP 390E 1%
available as sub-assembly only - refer to 16
(045-06100-05) in the mechanical parts list
RES M/F 0805 47K 1%
RES M/F 0805 47K 1%
RES MF 0805 CHIP 1K5 1%
RES FILM 120E 5% 0.25W 7X2.5
RES M/F 0805 CHIP 4K7 1%
RES MF 0805 CHIP 56K 1%
RES FILM 120E 5% 0.25W 7X2.5
RES NTC SMD 4K7 5% 20MW
RV101
RV103
RV105
RV107
RV109
RV113
RV115
042-04500-05
042-05500-05
042-04500-05
042-05500-05
044-04200-03
042-06500-05
042-04220-05
RES PRESET SMD 5K CER 4MM SQ
RES PRESET SMD 50K CER 4MM SQ
RES PRESET SMD 5K CER 4MM SQ
RES PRESET SMD 50K CER 4MM SQ
RES PRE 2K 10 TURN PNL MTG
RES PRESET SMD 500K CER 4MM SQ
RES PRESET SMD 2K CER 4MM SQ
SK101
SK103
*SK203
240-10000-05
240-10000-05
240-02100-44
CONN SMD SKT 8W 2R M-MATCH
CONN SMD SKT 8W 2R M-MATCH
SKT COAX MINI JACK PCB MT ANG.
01/07/00
M830P-00
Ref
Var
IPN
Description
Copyright TEL
IPN 220-01404-03
M830P-00
Copyright TEL
T838 PCB Information
D5.2.7
01/07/00
IPN 220-01404-03
D5.2.8
T838 PCB Information
M830P-00
T838 Mechanical & Miscellaneous Parts (220-01404-03)
IPN
Legend Description
IPN
Legend Description
000-00030-95
Q137
319-30064-00
13
SPACER HSINK RF MODULE
004-00687-02/3
14
#IC201
345-00040-16
23
SCRW M3X20MM P/POZ ST BZ
012-04150-01
22
CAP CER F/THRU 1N5 NO LEAD
349-00010-59
17
SCRW 6-32 X 3/8 P/PH T/T ZP
045-06100-05
16
ASSY 100K NTC FOR MODULE
R219
349-00020-07
SCRW 4-40 X 5/16 P/POZ T/T BLK
051-00006-02
349-00020-09
12
SCRW T/T 4-40X3/8 IN P/POZ BLK
SOLDER SPRING 1.3MM A4M1877
Support for front panel LED solder joints.
349-00020-36
37
LIM)SCREW TT M3X8m PANTORX BLK
051-00641-01
COAX SEMI-RIG N-TYPE EXTN
352-00010-29
36
NUT M4 NYLOC HEX
051-00642-01
28
COAX SEMI-RIG N-TYPE EXTN
353-00010-10
11
WSHR M3 FLAT 7MMX0.6MM ST BZ
065-00010-13
21
BEAD FER 7D 1.9X0.9X3.8
356-00010-03
24
TAG SOLDER 3MM LONG M614/3.2
201-00030-02
WIRE T/C 7/0.2 PVC RED
Front panel LEDs.
356-00010-05
15
TAG SOLDER 4MM LONG M6144/4.2
360-00010-41
34
BUSH SHORTY BLK
201-00030-10
WIRE T/C 7/0.2 PVC BLACK
Front panel LEDs.
362-00010-07
GASKET SIL INSULATING TO-220
362-00010-13
10
BUSH INSULATING 1.1MM TOP HAT
362-00010-33
33
GROMMET LED MTG 3MM
201-00050-25
AUTO 154 RED 41/0.3 PVC
DC+ from D-range PCB.
201-00050-26
AUTO 154 BLACK 41/0.3 PVC
DC- from D-range PCB.
206-00010-11
219-02591-00
COAX 50 OHM RG316-U PTFE
Coax from BNC connector to *SK203.
18
219-02592-00
365-00100-20
LABEL WHITE S/A 28X11MM
365-01391-01
LABEL 30X10.8 T/MARK VOID
365-01538-00
LABEL WARNING 60W/PWR CLAMP
LOOM RIBBON 8 WAY FOR PA
369-00010-14
TIE CABLE NYLON 100X2.6MM
CABLE ASSY RG223/U N TO BNC
Exciter/PA connecting cable.
399-00010-56
BAG PLASTIC 200X250MM
220-01402-02
PCB T838/9 TEFLON DIRNL COUPLER
400-00020-07
SLEEVING 2MM SIL RUBBER
220-01404-03
PCB T838/9 PA MODULE DESIGN
410-00010-43
PKG T296 AMPAC REF 73-46
240-00010-55
20
PLUG 15 W D RANGE W/W PNL MT
PL101
240-00100-43
PLG COAX MINI PIN CRIMP 1.5D
Coax from BNC connector to *SK203.
240-02010-54
SKT 15W DRANGE PNL MTG 125 C
Matching socket for D-range plug PL101.
240-02100-06
27
SKT COAX N TYPE PNL MTG OP-TER
240-02100-17
29
SKT COAX BNC PNL JAC CRP RG316
240-04020-62
SKT 2 W RECEP SHORTING LINK
LINK1
240-06010-14
CLAMP LATCHING 15 W D RANGE
Cover for D-range socket.
240-06010-15
25
BLOCK LATCHING 15W D RANGE
240-06010-44
26
HOOD CONN UHF & N-TYPE
303-23120-00
30
COVER A3M2288 HOLE BLANKING
303-23146-00
38
COVER SIDE T838/9PA
308-01007-01
35
HANDLE BASE STATION SERIES II
308-13122-02
HEATSINK T838/9 PA COMPLETE
316-06617-00
32
PNL PA NO INP DRV SER II SNGL
319-01152-00
19
SHIELD A3M2250 F/THRU MTG
319-01190-01
SHIELD WALL HARM. FILTER
319-01201-00
31
SHIELD LID HARM. FILTER
319-01202-00
SHIELD PA CONTROL CIRCUIT
01/07/00
Copyright TEL
IPN 220-01404-03
M830P-00
T838 PCB Information
D5.2.9
replace A4 pages D5.2.9/D5.2.10 with A3 pages D5.2.9/D5.2.10
Copyright TEL
01/07/00
IPN 220-01404-03
D5.2.10
T838 PCB Information
M830P-00
replace A4 pages D5.2.9/D5.2.10 with A3 pages D5.2.9/D5.2.10
01/07/00
Copyright TEL
IPN 220-01404-03
T838 PCB Information
M830P-00
D5.2.11
T838 Grid Reference Index (IPN 220-01404-03)
How To Use This Grid Reference Index
The first digit in the PCB layout reference is a "1" or "2", indicating the top or bottom side layout respectively, and the last two characters give the location of the component on that diagram.
The first digit in the circuit diagram reference is the sheet number, and the last two characters give the location of the component on
that sheet.
Device
PCB
Circuit
Note:
This grid reference index
covers both the T838 and
T839 and is reproduced in
both PCB Information sections for your convenience.
*C101
*C103
*C105
*C107
*C109
*C111
*C113
*C115
*C117
*C119
*C121
*C123
*C124
*C125
*C127
C129
C131
C132
C133
C137
C138
C139
C141
C143
C145
C147
C149
C151
C153
C155
C159
C161
C162
C164
C165
C167
C169
C171
C173
C174
C176
C178
C179
C180
C181
C182
C184
C185
C186
1:E4
1:E4
1:B3
1:B3
1:B3
1:C4
1:B5
1:B5
1:B5
1:B5
1:D4
1:D4
1:E3
1:C4
1:C4
1:B3
1:B3
1:A3
1:B4
1:B2
1:B2
1:B4
1:B3
1:E3
1:E3
1:D3
1:D3
1:C5
1:B5
1:D3
1:B3
1:B4
1:B3
1:B3
1:B3
1:K3
1:K3
1:K3
1:D4
1:E4
1:D4
1:C4
1:D3
1:E2
1:D3
1:D3
1:D4
1:D2
1:E2
Copyright TEL
1-B8
1-B9
1-D8
1-D9
1-D8
1-D8
1-F8
1-F8
1-F9
1-G8
1-B6
1-B6
1-C6
1-D7
1-D6
1-H5
1-J6
1-K7
1-K8
1-K8
1-L8
1-M6
1-M8
1-E7
1-F7
1-F6
1-F7
1-D5
1-D3
1-G3
1-H2
1-K4
1-L4
1-L4
1-M4
1-P3
1-P3
1-Q3
1-B0
1-B0
1-E0
1-F0
1-G2
1-H0
1-G0
1-H1
1-G0
1-J1
1-J0
Device
PCB
Circuit
Device
PCB
Circuit
Device
PCB
Circuit
C187
C188
C189
C190
C192
C193
C195
C201
*C202
*C203
*C204
C205
*C206
C207
*C208
*C209
*C210
*C212
*C213
C215
C216
*C217
C218
*C219
C220
C221
C222
C223
C224
C225
C226
C227
C229
*C230
*C231
*C232
*C233
*C234
*C240
C259
C261
C268
C270
C271
C272
C273
C294
C295
C297
C298
D101
D101
D103
D105
D105
D107
D109
D111
D111
1:D3
1:C2
1:C3
1:C3
1:B2
1:B2
1:C2
1:J7
1:H3
1:P7
1:M6
1:L7
1:P6
1:K7
1:H3
1:C5
1:C5
1:D5
1:D4
1:D5
1:H6
1:P3
1:H5
1:P2
1:E5
1:E5
1:E5
1:D5
1:D5
1:L6
1:D4
1:K6
1:H6
1:L4
1:L4
1:K4
1:K4
1:J4
1:H4
1:F7
1:F6
1:E6
1:D6
1:C6
1:B6
1:B6
1:D6
1:D6
1:C5
1:C6
1:B3
1:B3
1:P7
1:C2
1:C2
1:P7
1:P6
1:C2
1:C2
1-K1
1-L1
1-M1
1-N1
1-N1
1-P1
1-Q1
2-L5
2-B8
2-C1
2-E1
2-I5
2-C1
2-K5
2-C8
2-D8
2-E8
2-G9
2-H9
2-J8
2-B6
2-E3
2-C6
2-E3
2-D6
2-N8
2-E6
2-G7
2-M8
2-I4
2-H7
2-J4
2-K4
2-I2
2-I1
2-J1
2-K2
2-L1
2-K1
2-Q3
2-Q4
2-S2
2-T2
2-T2
2-U2
2-V2
2-R1
2-R1
2-L8
2-L8
1-H5
1-G5
1-K9
1-J2
1-J2
1-K5
1-L5
1-M1
1-M1
D113
D201
D202
D202
D203
IC101
IC101
IC101
IC101
IC101
IC103
IC103
IC103
IC103
IC103
IC105
IC105
IC105
IC107
IC109
#IC201
*#IC202
*IC203
IC204
IC204
IC204
*IC205
L101
L103
L105
*L201
*L202
L203
*L204
L206
L208
*L211
L215
L217
*L223
*L230
*L231
L233
*L236
L239
L241
L243
L245
L247
L248
L249
L264
LINK1
LINK2
LINK201
P101
P103
P105
P201
1:F7
1:F6
1:D4
1:D4
1:E6
1:D4
1:D4
1:D4
1:D4
1:D4
1:C4
1:C4
1:C4
1:C4
1:C4
1:D3
1:D3
1:D3
1:D3
1:B2
1:K7
1:K4
1:N5
1:D5
1:D5
1:D5
1:G5
1:K3
1:K2
1:E2
1:P7
1:H3
1:L7
1:C5
1:H5
1:E5
1:P2
1:L7
1:J7
1:J4
1:L4
1:L4
1:F6
1:H6
1:E5
1:D6
1:C6
1:C7
1:C6
1:D7
1:B6
1:C6
1:D3
1:P6
1:D5
1:A5
1:K3
1:K2
1:B6
1-Q2
2-Q3
2-I8
2-I8
2-R2
1-C6
1-G0
1-B8
1-C0
1-N0
1-D4
1-J8
1-F0
1-J5
1-E3
1-M0
1-P0
1-G2
1-K1
1-N1
2-I4
2-I1
2-F2
2-H7
2-H8
2-N8
2-P2
1-P3
1-Q3
1-K0
2-C1
2-B8
2-I6
2-D8
2-B7
2-D7
2-D3
2-I5
2-K5
2-K2
2-I3
2-I2
2-Q3
2-M2
2-R2
2-S3
2-T3
2-T2
2-U3
2-U2
2-V3
2-L8
1-L0
1-D1
2-F8
1-R9
1-R0
1-R0
2-V3
PL101
*Q101
*Q103
*Q105
*Q107
*Q109
Q111
Q113
Q115
Q117
Q119
Q121
Q123
Q125
Q127
Q129
Q131
Q133
Q135
Q136
Q137
Q201
R101
*R102
R103
R104
*R105
*R106
*R107
*R108
*R109
*R111
*R112
*R113
*R114
*R115
*R116
R117
R118
R119
*R120
*R121
*R122
R123
R124
R125
R126
R127
R128
R129
R130
R131
R132
R133
R134
R135
R136
R137
R138
1:L3
1:C3
1:B3
1:C4
1:B5
1:A5
1:A3
1:A3
1:A3
1:B4
1:B4
1:B3
1:E3
1:E3
1:D3
1:B4
1:B3
1:D4
1:E2
1:E3
1:D2
1:D5
1:E4
1:E4
1:E4
1:E4
1:D4
1:B3
1:C4
1:B3
1:C3
1:B5
1:B5
1:B5
1:C4
1:C5
1:D4
1:C4
1:D4
1:D4
1:E3
1:C4
1:C4
1:B4
1:B4
1:B4
1:B3
1:A3
1:A3
1:B4
1:B4
1:A3
1:B5
1:A3
1:B3
1:P7
1:A3
1:B3
1:B4
1-C2
1-C9
1-E8
1-D7
1-F8
1-G9
1-J7
1-K6
1-L7
1-K8
1-L6
1-L8
1-E7
1-F7
1-G7
1-L4
1-M5
1-D0
1-H0
1-H0
1-J0
2-K8
1-A8
1-A9
1-A8
1-B9
1-C8
1-C8
1-D7
1-E9
1-E9
1-E8
1-E9
1-F9
1-A6
1-A6
1-A7
1-A6
1-B6
1-C7
1-H7
1-C7
1-D6
1-H7
1-H8
1-H8
1-H6
1-H7
1-J7
1-J9
1-J8
1-J7
1-J8
1-K7
1-K6
1-K9
1-K7
1-K6
1-L6
01/07/00
IPN 220-01404-03
T838 PCB Information
D5.2.12
M830P-00
Device
PCB
Circuit
Device
PCB
Circuit
R141
R142
R143
R144
R145
R146
R148
R149
R150
R151
R152
R153
R154
R155
R156
R157
R158
R159
R160
R161
R162
R163
R164
R165
R166
R168
R169
R170
R171
R172
R173
R174
R175
R176
R177
R178
R179
R180
R181
R182
R183
R184
R185
R186
R187
R188
R189
R190
R191
R192
R193
R194
R195
R196
R197
*R201
*R202
R203
*R204
R205
*R206
R207
*R208
R209
R210
*R211
R212
R213
R214
*R215
*R216
*R217
R218
R219
R220
R222
1:E3
1:E3
1:E4
1:D3
1:E4
1:E4
1:C5
1:C5
1:C4
1:B5
1:B5
1:C5
1:C5
1:D3
1:D3
1:D4
1:C4
1:C4
1:C3
1:B3
1:B3
1:P8
1:B3
1:B4
1:P7
1:E4
1:E4
1:D4
1:E4
1:E4
1:P6
1:P6
1:D4
1:D4
1:D4
1:D3
1:D4
1:D4
1:E3
1:D4
1:D4
1:E3
1:E2
1:D2
1:E2
1:D2
1:D2
1:C3
1:B2
1:B2
1:C2
1:D2
1:D3
1:D3
1:D3
1:N6
1:N6
1:L7
1:N6
1:K7
1:C5
1:D4
1:C5
1:D5
1:D5
1:D4
1:D4
1:D5
1:E4
1:H3
1:P6
1:P6
1:E5
1:H6
1:E5
1:D5
1-C6
1-E7
1-F6
1-F6
1-F7
1-G7
1-D5
1-C4
1-F0
1-D5
1-C3
1-F4
1-F3
1-F2
1-F3
1-G0
1-H3
1-H4
1-J5
1-J3
1-K4
1-K5
1-K4
1-K4
1-L5
1-A1
1-A0
1-B0
1-B0
1-B0
1-C1
1-C1
1-C0
1-D0
1-D0
1-E1
1-E0
1-E0
1-F2
1-E0
1-F1
1-G1
1-J0
1-H1
1-H0
1-L1
1-L1
1-M1
1-P1
1-P1
1-Q1
1-H0
1-J0
1-J0
1-L1
2-D1
2-D1
2-I5
2-D1
2-K4
2-E8
2-F8
2-G9
2-G8
2-G8
2-H9
2-I8
2-E7
2-J8
2-B8
2-E2
2-E2
2-E7
2-B6
2-F7
2-G7
*R223
R224
R225
R228
R229
*R230
R231
*R232
R237
RV101
RV103
RV105
RV107
RV109
*RV111
RV113
RV115
SK101
SK103
*SK201
*SK203
1:F2
1:D4
1:E6
1:E4
1:D4
1:L4
1:F5
1:K4
1:C5
1:C4
1:C4
1:C3
1:C3
1:P5
1:P5
1:C3
1:C3
1:K3
1:B4
1:N3
1:N7
2-P2
2-G7
2-R3
2-G7
2-H7
2-I2
2-Q2
2-K1
2-K8
1-H8
1-H6
1-J5
1-J3
1-C2
1-D1
1-D0
1-K0
1-A2
1-B2
2-D3
2-C1
01/07/00
Device
PCB
Circuit
Device
PCB
Circuit
Copyright TEL
T839 PCB Information
M830P-00
5.3
D5.3.1
T839 Power Amplifier PCB
This section contains the following information.
IPN
220-01404-03
Copyright TEL
Section
Page
Parts List
5.3.3
Mechanical & Miscellaneous Parts
5.3.8
Mechanical Assembly
5.3.9
Grid Reference Index
5.3.11
PCB Layout - Bottom Side
5.3.13
PCB Layout - Top Side
5.3.14
Control Section Circuit Diagram
5.3.15
RF & Thermistor Control Sections Circuit Diagram
5.3.16
01/07/00
D5.3.2
01/07/00
T839 PCB Information
M830P-00
Copyright TEL
IPN 220-01404-03
T839 PCB Information
M830P-00
D5.3.3
T839 Parts List (IPN 220-01404-03)
How To Use This Parts List
The components listed in this parts list are divided into two main types: those with a circuit reference (e.g. C2, D1, R121, etc.) and
those without (miscellaneous and mechanical).
Those with a circuit reference are grouped in alphabetical order and then in numerical order within each group. Each component
entry comprises three or four columns: the circuit reference, variant (if applicable), IPN and description. A number in the variant column indicates that this is a variant component which is fitted only to the product type listed. Static sensitive devices are indicated by
an (S) at the start of the description column.
The miscellaneous and mechanical section lists the variant and common parts in IPN order. Where possible, a number in the legend
column indicates their position in the mechanical assembly drawing.
The Parts List Amendments box below lists component changes that took place after the parts list and diagrams in this section were
compiled. These changes (e.g. value changes, added/deleted components, etc.) are listed by circuit reference in alphanumeric order
and supersede the information given in the parts list or diagrams. Components without circuit references are listed in IPN order.
Parts List Amendments
C155
Changed from 10n (IPN 015-25100-08) to 100n (IPN 015-26100-08) for T839-20-1020 product type. Circuit reference changed to %C155.
D101, D105
Removed from the main PCB and replaced by two 1N4148 diodes (IPN 001-50012-00) placed on the D-range
PCB: one soldered between PL101 pins 5 and 7 (cathode), the other between PL101 pins 6 and 8 (cathode). To
allow external power meters to read zero and still provide meter overvoltage protection (710978).
D113
Changed from MR750 (IPN 001-00011-60) to MR2520L (IPN 001-00012-90) to provide overvoltage transient suppression (750087/88/89/90/91/92).
IC204
Changed from LMC622CM to LM358 (710382).
*L236
Changed from through-hole link (IPN 051-00640-01) to SMD link (IPN 051-00640-02) (710580).
R123, R158
Changed from 1k resistors (IPN 036-14100-00) to BA592 diodes (IPN 001-10059-20) to allow external power
meters to read zero (710978).
*R206
Changed from 390Ω (IPN 036-13390-10) to 100Ω (IPN 036-13100-10)
R207, *R208
Changed from 47k (IPN 036-15470-10) to 4k7 (IPN 036-14470-10)
R209
Changed from 1k5 (IPN 036-14150-10) to 390Ω (IPN 036-13390-10)
R210
Changed from 4k7 (IPN 036-14470-10) to 390Ω (IPN 036-13390-10)
*R211
Changed from 56k (IPN 036-15560-10) to 6k8 (IPN 036-14680-10)
R213
Changed from 3k9 (IPN 036-14390-00) to 560Ω (IPN 036-13560-00)
*R215
Changed from 100k NTC (IPN 045-06100-05) to 10k NTC (IPN 045-05100-02)
R218
Changed from 390Ω (IPN 036-13390-10) to 100Ω (IPN 036-13100-10)
R219
Changed from 100k NTC (IPN 045-06100-05) to 10k NTC (IPN 045-05100-02)
R220, R222
Changed from 47k (IPN 036-15470-10) to 4k7 (IPN 036-14470-10)
R224
Changed from 1k5 (IPN 036-14150-10) to 390Ω (IPN 036-13390-10)
R228
Changed from 4k7 (IPN 036-14470-10) to 390Ω (IPN 036-13390-10)
R229
Changed from 56k (IPN 036-15560-10) to 6k8 (IPN 036-14680-10)
Copyright TEL
100k thermistor assembly
replaced with 10k item;
values of associated components changed accordingly
(710394/411/447).
01/07/00
IPN 220-01404-03
D5.3.4
T839 PCB Information
M830P-00
Parts List Amendments - Continued
258-00010-03
Cooling fan: some T839 PAs may be fitted with a different fan (IPN 258-00010-06). If so, a 100µH inductor (IPN
056-00021-02) may be fitted in series in the fan power feed wire with a 10µF capacitor (IPN 025-08100-03) fitted
in parallel with this inductor (710977).
349-00020-36
The two M3x8 Torx screws which secure the module into the rack frame have been replaced by M3x8 Pozidriv
screws (IPN 349-00020-55) (750101/2/3/5/6).
01/07/00
Copyright TEL
IPN 220-01404-03
T839 PCB Information
M830P-00
Ref
Note:
Var
IPN
Description
The T838 and T839 share the same basic design and
are built on the same PCB. While most components in
this design are common to both products, there are a
number of components that are placed in only one product.
Because the circuit diagrams for this design cover both
products, we have indicated on the diagrams those
components which are placed only in the T839 by
enclosing them in a labelled box. The circuit reference
for each of these components is also prefixed with the
“*”character.
The “*” character is used in this parts list to indicate
components used only in the T839.
*C101
*C103
*C105
*C107
*C109
*C111
*C113
*C115
*C117
*C119
*C121
*C123
*C124
*C125
*C127
C129
C131
C132
C133
C137
C138
C139
C141
C143
C145
C147
C149
C151
C153
C155
C159
C161
C162
C164
C165
C167
C169
C171
C173
C174
C176
C178
C179
C180
C181
C182
C184
C185
C186
C187
C188
C189
C190
C192
C193
C195
C201
*C202
C205
C207
*C208
*C209
*C210
*C212
*C213
C215
C216
*C217
C218
*C219
C220
C221
015-23680-08
015-23680-08
015-23680-08
015-23680-08
015-23680-08
015-23680-08
015-23680-08
015-23680-08
015-23680-08
015-23680-08
015-23680-08
015-23680-08
015-23680-08
015-23680-08
015-23680-08
015-23680-08
015-27100-10
015-24100-08
015-23680-08
015-23680-08
015-24470-08
015-23680-08
014-07100-02
015-23680-08
015-23680-08
015-24470-08
015-23680-08
015-23680-08
015-23680-08
015-25100-08
015-23680-08
015-23680-08
015-23680-08
015-24470-08
015-23680-08
015-24100-08
014-07470-03
015-24470-08
015-23680-08
015-23680-08
015-06100-08
015-25100-08
015-06150-08
015-23680-08
015-23100-01
015-24470-08
015-25100-08
015-23680-08
015-23680-08
015-06100-08
014-08100-00
015-25100-08
015-23680-08
015-06100-08
015-06100-08
014-08100-00
014-07470-03
015-24470-08
015-06100-08
015-06100-08
015-23680-08
015-23680-08
015-24470-08
015-24100-08
015-23680-08
015-23680-08
015-24470-08
015-03680-06
015-23680-08
015-03680-06
015-23680-08
015-06100-08
Copyright TEL
CAP CER 0805 680P 10% X7R 50V
CAP CER 0805 680P 10% X7R 50V
CAP CER 0805 680P 10% X7R 50V
CAP CER 0805 680P 10% X7R 50V
CAP CER 0805 680P 10% X7R 50V
CAP CER 0805 680P 10% X7R 50V
CAP CER 0805 680P 10% X7R 50V
CAP CER 0805 680P 10% X7R 50V
CAP CER 0805 680P 10% X7R 50V
CAP CER 0805 680P 10% X7R 50V
CAP CER 0805 680P 10% X7R 50V
CAP CER 0805 680P 10% X7R 50V
CAP CER 0805 680P 10% X7R 50V
CAP CER 0805 680P 10% X7R 50V
CAP CER 0805 680P 10% X7R 50V
CAP CER 0805 680P 10% X7R 50V
CAP CER 0805 1M+80-20% Y5V 16V
CAP CER 0805 1N 10% X7R 50V
CAP CER 0805 680P 10% X7R 50V
CAP CER 0805 680P 10% X7R 50V
CAP CER 0805 4N7 10% X7R 50V
CAP CER 0805 680P 10% X7R 50V
CAP TANT CHIP 1U0 3.2 X 1.6MM
CAP CER 0805 680P 10% X7R 50V
CAP CER 0805 680P 10% X7R 50V
CAP CER 0805 4N7 10% X7R 50V
CAP CER 0805 680P 10% X7R 50V
CAP CER 0805 680P 10% X7R 50V
CAP CER 0805 680P 10% X7R 50V
CAP CER 0805 10N 10% X7R 50V
CAP CER 0805 680P 10% X7R 50V
CAP CER 0805 680P 10% X7R 50V
CAP CER 0805 680P 10% X7R 50V
CAP CER 0805 4N7 10% X7R 50V
CAP CER 0805 680P 10% X7R 50V
CAP CER 0805 1N 10% X7R 50V
L) CAP TANT SMD 4U7 35V 20%
CAP CER 0805 4N7 10% X7R 50V
CAP CER 0805 680P 10% X7R 50V
CAP CER 0805 680P 10% X7R 50V
CAP CER 1206 100N 10% X7R 50V
CAP CER 0805 10N 10% X7R 50V
CAP CER1206150N10% X7R25VW 25V
CAP CER 0805 680P 10% X7R 50V
CAP CER 0805 100P 5% NPO 50V
CAP CER 0805 4N7 10% X7R 50V
CAP CER 0805 10N 10% X7R 50V
CAP CER 0805 680P 10% X7R 50V
CAP CER 0805 680P 10% X7R 50V
CAP CER 1206 100N 10% X7R 50V
CAP TANT CHIP 10M 16VW +-20%
CAP CER 0805 10N 10% X7R 50V
CAP CER 0805 680P 10% X7R 50V
CAP CER 1206 100N 10% X7R 50V
CAP CER 1206 100N 10% X7R 50V
CAP TANT CHIP 10M 16VW +-20%
L) CAP TANT SMD 4U7 35V 20%
CAP CER 0805 4N7 10% X7R 50V
CAP CER 1206 100N 10% X7R 50V
CAP CER 1206 100N 10% X7R 50V
CAP CER 0805 680P 10% X7R 50V
CAP CER 0805 680P 10% X7R 50V
CAP CER 0805 4N7 10% X7R 50V
CAP CER 0805 1N 10% X7R 50V
CAP CER 0805 680P 10% X7R 50V
CAP CER 0805 680P 10% X7R 50V
CAP CER 0805 4N7 10% X7R 50V
CAP CER 1210 680P NPO200VGRM42
CAP CER 0805 680P 10% X7R 50V
CAP CER 1210 680P NPO200VGRM42
CAP CER 0805 680P 10% X7R 50V
CAP CER 1206 100N 10% X7R 50V
Ref
IPN
Description
C222
C223
C224
C225
C226
C227
C229
*C230
*C231
*C232
*C233
*C234
*C240
C259
C261
C268
C270
C271
C272
C273
C294
C295
C297
C298
Var
015-24470-08
015-24100-08
015-23680-08
015-03680-06
015-23680-08
015-03680-06
015-03680-03
015-06100-08
015-03680-06
015-03680-06
015-06100-08
014-07470-03
015-03680-03
015-23680-08
015-24470-08
029-02220-02
029-02560-03
029-02470-03
029-02560-03
029-02220-02
015-23680-08
015-24470-08
015-23680-08
015-24470-08
CAP CER 0805 4N7 10% X7R 50V
CAP CER 0805 1N 10% X7R 50V
CAP CER 0805 680P 10% X7R 50V
CAP CER 1210 680P NPO200VGRM42
CAP CER 0805 680P 10% X7R 50V
CAP CER 1210 680P NPO200VGRM42
CAP CER 680P 5% NPO100V GRH111
CAP CER 1206 100N 10% X7R 50V
CAP CER 1210 680P NPO200VGRM42
CAP CER 1210 680P NPO200VGRM42
CAP CER 1206 100N 10% X7R 50V
L) CAP TANT SMD 4U7 35V 20%
CAP CER 680P 5% NPO100V GRH111
CAP CER 0805 680P 10% X7R 50V
CAP CER 0805 4N7 10% X7R 50V
CAP MICA 5 CASE 22P 5%
CAP MICA 10 CASE 56P 2%
CAP MICA 10 CASE 47P 2%
CAP MICA 10 CASE 56P 2%
CAP MICA 5 CASE 22P 5%
CAP CER 0805 680P 10% X7R 50V
CAP CER 0805 4N7 10% X7R 50V
CAP CER 0805 680P 10% X7R 50V
CAP CER 0805 4N7 10% X7R 50V
D101
D103
D105
D107
D109
D111
D113
D201
D202
D203
001-10000-70
008-00013-32
001-10000-70
008-00013-35
008-00013-32
001-10000-70
001-00011-60
001-00013-45
001-10000-70
001-00013-45
(S) DIODE SMD BAV70 D-SW SOT23
(S) LED 3 RED LO CURRENT NO MTG
(S) DIODE SMD BAV70 D-SW SOT23
(S) LED 3 GRN LO CURRENT NO MTG
(S) LED 3 RED LO CURRENT NO MTG
(S) DIODE SMD BAV70 D-SW SOT23
(S) DIODE SR2607 -- USE MR750
(S) DIODE SCHTTKY 1SS97/2
(S) DIODE SMD BAV70 D-SW SOT23
(S) DIODE SCHTTKY 1SS97/2
IC101
IC103
IC105
IC107
IC109
#IC201
#IC201
*#IC202
*#IC202
*IC203
IC204
*IC205
002-10003-24
002-10003-24
002-10003-58
002-10003-17
002-10003-17
004-00687-02
004-00687-03
004-00687-02
004-00687-03
051-00005-36
002-10006-62
051-00005-36
(S) IC SMD 324 4X O-AMP SO14
(S) IC SMD 324 4X O-AMP SO14
(S) IC SMD LM358 DUAL O-AMP
(S) IC LM317L REG S0-8 100MA
(S) IC LM317L REG S0-8 100MA
MODULE M68702L 135-160MHZ 60W
MODULE M68702H 150-174MHZ 60W
MODULE M68702L 135-160MHZ 60W
MODULE M68702H 150-174MHZ 60W
RFPOWER 3DB HYBRID COUPLER
(S)IC SMD LMC662CM 2X O-AMP
RFPOWER 3DB HYBRID COUPLER
L101
L103
L105
*L202
L203
*L204
L206
L208
*L211
L215
L217
*L223
*L230
*L231
L233
*L236
L239
L241
L243
L245
L247
L248
L249
L264
065-10004-20
065-10004-20
065-10004-20
056-14150-02
065-10004-20
056-14150-02
056-14150-02
056-14150-02
056-10330-02
052-08340-40
052-08340-40
052-08340-40
065-10004-20
052-08340-40
056-10330-02
051-00640-01
056-10330-02
052-08360-20
052-08340-20
052-08345-10
052-08340-20
052-08345-10
052-08360-20
056-10330-02
BEAD FE SMD CBD 4.6/3/3-4S2
BEAD FE SMD CBD 4.6/3/3-4S2
BEAD FE SMD CBD 4.6/3/3-4S2
(L) IND SMD 1.5UH
BEAD FE SMD CBD 4.6/3/3-4S2
(L) IND SMD 1.5UH
(L) IND SMD 1.5UH
(L) IND SMD 1.5UH
(L) IND SMD 330NH
COIL A/W 4T/4.0MM SMD 0.8MM
COIL A/W 4T/4.0MM SMD 0.8MM
COIL A/W 4T/4.0MM SMD 0.8MM
BEAD FE SMD CBD 4.6/3/3-4S2
COIL A/W 4T/4.0MM SMD 0.8MM
(L) IND SMD 330NH
LNK 65.5 COP STPL C/W SLCN SLV
(L) IND SMD 330NH
COIL A/W 2T/6.0MM SMD 0.8MM
COIL A/W 2T/4.0MM SMD 0.8MM
COIL A/W 1T/4.5MM SMD 0.8MM
COIL A/W 2T/4.0MM SMD 0.8MM
COIL A/W 1T/4.5MM SMD 0.8MM
COIL A/W 2T/6.0MM SMD 0.8MM
(L) IND SMD 330NH
LINK1
LINK2
LINK201
240-00020-68
036-10000-00
240-00020-59
HEADER 2W PCB MTG STD
RES M/F 0805 ZERO OHM
HEADER 3 W 1 R PCB MTG
PL101
240-00010-55
PLUG 15 W D RANGE W/W PNL MT
*Q101
*Q103
*Q105
*Q107
*Q109
Q111
Q113
Q115
Q117
Q119
Q121
Q123
Q125
Q127
Q129
Q131
Q133
Q135
000-10008-57
000-10008-17
000-10008-17
000-10008-57
000-10008-69
000-10008-57
000-10008-48
000-10008-57
000-10008-17
000-10008-48
000-10017-00
000-10008-57
000-10008-57
000-10008-57
000-10008-17
000-10017-00
000-10008-48
000-10008-17
(S) XSTR SMD BCW70 PNP SOT23 SS
(S) XSTR SMD BC817-25 NPN SOT23
(S) XSTR SMD BC817-25 NPN SOT23
(S) XSTR SMD BCW70 PNP SOT23 SS
(S) XSTR SMD BC869 PNP 1W SOT89
(S) XSTR SMD BCW70 PNP SOT23 SS
(S) XSTR SMD BCW60 NPN SOT23 SS
(S) XSTR SMD BCW70 PNP SOT23 SS
(S) XSTR SMD BC817-25 NPN SOT23
(S) XSTR SMD BCW60 NPN SOT23 SS
LS) XSTR SMD BF170LT1 SOT23
(S) XSTR SMD BCW70 PNP SOT23 SS
(S) XSTR SMD BCW70 PNP SOT23 SS
(S) XSTR SMD BCW70 PNP SOT23 SS
(S) XSTR SMD BC817-25 NPN SOT23
LS) XSTR SMD BF170LT1 SOT23
(S) XSTR SMD BCW60 NPN SOT23 SS
(S) XSTR SMD BC817-25 NPN SOT23
10
20
10
20
D5.3.5
01/07/00
IPN 220-01404-03
D5.3.6
Ref
Var
T839 PCB Information
M830P-00
IPN
Description
Ref
IPN
Description
Q136
Q137
Q201
000-10008-17
000-00030-95
000-10008-48
(S) XSTR SMD BC817-25 NPN SOT23
(S) XSTR 2N6107 PNP TO220 AF
(S) XSTR SMD BCW60 NPN SOT23 SS
R101
*R102
R103
R104
*R105
*R106
*R107
*R108
*R109
*R111
*R112
*R113
*R114
*R115
*R116
R117
R118
R119
*R121
*R122
R123
R124
R125
R126
R127
R128
R129
R130
R131
R132
R133
R134
R135
R136
R137
R138
R141
R142
R143
R144
R145
R146
R148
R149
R150
R151
R152
R153
R154
R155
R156
R157
R158
R159
R160
R161
R162
R163
R164
R165
R166
R168
R169
R170
R171
R172
R173
R174
R175
R176
R177
R178
R179
R180
R181
R182
R183
R184
R185
R186
R187
R188
R189
R190
R191
R192
R193
R194
R195
R196
R197
R203
R205
*R206
036-14100-00
036-16220-00
036-15330-00
036-16470-00
036-15150-00
036-15150-00
036-14390-00
036-14330-00
036-15100-00
036-14820-00
036-14680-00
036-14100-00
036-16100-00
036-16220-00
045-04470-00
036-16220-00
036-15270-00
036-16470-00
036-15150-00
036-14390-00
036-14100-00
036-16100-00
036-15100-00
036-14100-00
036-15100-00
036-15220-00
036-17100-00
036-14220-00
036-16180-00
036-14100-00
036-15100-00
036-13470-00
036-13680-00
036-15100-00
036-13470-00
036-15100-00
036-15100-00
036-15100-00
036-15100-00
036-15820-00
036-15470-00
036-14180-00
036-14820-00
036-13470-00
036-12220-00
036-15100-00
036-15100-00
036-14680-00
036-14680-00
036-13220-00
036-13100-00
036-12220-00
036-14100-00
036-15100-00
036-14470-00
036-14100-00
036-17100-00
036-13680-00
036-14220-00
036-14100-00
036-13680-00
036-15100-10
036-14100-00
036-14100-00
036-14100-00
036-15100-10
036-13470-00
036-13220-00
036-16220-00
036-15100-00
036-14470-00
036-16100-00
036-15100-00
036-16150-00
036-14560-00
036-16100-00
036-14470-00
036-14100-00
036-03100-02
036-13100-00
036-03150-03
036-13220-00
036-12100-00
036-12220-00
036-14100-10
036-13220-10
036-12100-00
036-03220-03
036-14220-00
036-13100-00
036-10000-00
036-02100-02
036-02100-02
036-13390-10
RES M/F 0805 1K 5%
RES M/F 0805 220K 5%
RES M/F 0805 33K 5%
RES M/F 0805 470K 5%
RES M/F 0805 15K 5%
RES M/F 0805 15K 5%
RES M/F 0805 3K9 5%
RES M/F 0805 3K3 5%
RES M/F 0805 10K 5%
RES M/F 0805 8K2 5%
RES M/F 0805 6K8 5%
RES M/F 0805 1K 5%
RES M/F 0805 100K 5%
RES M/F 0805 220K 5%
RES NTC SMD 4K7 5% 20MW
RES M/F 0805 220K 5%
RES M/F 0805 27K 5%
RES M/F 0805 470K 5%
RES M/F 0805 15K 5%
RES M/F 0805 3K9 5%
RES M/F 0805 1K 5%
RES M/F 0805 100K 5%
RES M/F 0805 10K 5%
RES M/F 0805 1K 5%
RES M/F 0805 10K 5%
RES M/F 0805 22K 5%
RES M/F 0805 1M 5%
RES M/F 0805 2K2 5%
RES M/F 0805 180K 5%
RES M/F 0805 1K 5%
RES M/F 0805 10K 5%
RES M/F 0805 470E 5%
RES M/F 0805 680E 5%
RES M/F 0805 10K 5%
RES M/F 0805 470E 5%
RES M/F 0805 10K 5%
RES M/F 0805 10K 5%
RES M/F 0805 10K 5%
RES M/F 0805 10K 5%
RES M/F 0805 82K 5%
RES M/F 0805 47K 5%
RES M/F 0805 1K8 5%
RES M/F 0805 8K2 5%
RES M/F 0805 470E 5%
RES M/F 0805 22E 5%
RES M/F 0805 10K 5%
RES M/F 0805 10K 5%
RES M/F 0805 6K8 5%
RES M/F 0805 6K8 5%
RES M/F 0805 220E 5%
RES M/F 0805 100E 5%
RES M/F 0805 22E 5%
RES M/F 0805 1K 5%
RES M/F 0805 10K 5%
RES M/F 0805 4K7 5%
RES M/F 0805 1K 5%
RES M/F 0805 1M 5%
RES M/F 0805 680E 5%
RES M/F 0805 2K2 5%
RES M/F 0805 1K 5%
RES M/F 0805 680E 5%
RES M/F 0805 10K 1%
RES M/F 0805 1K 5%
RES M/F 0805 1K 5%
RES M/F 0805 1K 5%
RES M/F 0805 10K 1%
RES M/F 0805 470E 5%
RES M/F 0805 220E 5%
RES M/F 0805 220K 5%
RES M/F 0805 10K 5%
RES M/F 0805 4K7 5%
RES M/F 0805 100K 5%
RES M/F 0805 10K 5%
RES M/F 0805 150K 5%
RES M/F 0805 5K6 5%
RES M/F 0805 100K 5%
RES M/F 0805 4K7 5%
RES M/F 0805 1K 5%
RES 100E 1206 200V 250MW RC01
RES M/F 0805 100E 5%
RES 1218 PWR CHIP 150E 20% 1W
RES M/F 0805 220E 5%
RES M/F 0805 10E 5%
RES M/F 0805 22E 5%
RES M/F 0805 CHIP 1K 1%
RES 0805 220E 1%
RES M/F 0805 10E 5%
RES 1218 PWR CHIP 220E 20% 1W
RES M/F 0805 2K2 5%
RES M/F 0805 100E 5%
RES M/F 0805 ZERO OHM
RES 10E 1206 200V 250MW RC01
RES 10E 1206 200V 250MW RC01
RES MF 0805 CHIP 390E 1%
R207
*R208
R209
R210
*R211
R212
R213
R214
*R215
036-15470-10
036-15470-10
036-14150-10
036-14470-10
036-15560-10
036-15100-00
036-14390-00
036-14470-00
*R216
*R217
R218
R219
036-03100-02
036-03100-02
036-13390-10
R220
R222
*R223
R224
R225
R228
R229
*R230
R231
*R232
R237
036-15470-10
036-15470-10
039-05050-00
036-14150-10
030-03120-00
036-14470-10
036-15560-10
036-02100-02
030-03120-00
036-02100-02
045-04470-00
RES M/F 0805 47K 1%
RES M/F 0805 47K 1%
RES MF 0805 CHIP 1K5 1%
RES M/F 0805 CHIP 4K7 1%
RES MF 0805 CHIP 56K 1%
RES M/F 0805 10K 5%
RES M/F 0805 3K9 5%
RES M/F 0805 4K7 5%
available as sub-assembly only - refer to 20
(045-06100-05) in the mechanical parts list
RES 100E 1206 200V 250MW RC01
RES 100E 1206 200V 250MW RC01
RES MF 0805 CHIP 390E 1%
available as sub-assembly only - refer to 20
(045-06100-05) in the mechanical parts list
RES M/F 0805 47K 1%
RES M/F 0805 47K 1%
RES TO22050E 50W MP850
RES MF 0805 CHIP 1K5 1%
RES FILM 120E 5% 0.25W 7X2.5
RES M/F 0805 CHIP 4K7 1%
RES MF 0805 CHIP 56K 1%
RES 10E 1206 200V 250MW RC01
RES FILM 120E 5% 0.25W 7X2.5
RES 10E 1206 200V 250MW RC01
RES NTC SMD 4K7 5% 20MW
RV101
RV103
RV105
RV107
RV109
RV113
RV115
042-04500-05
042-05500-05
042-04500-05
042-05500-05
044-04200-03
042-06500-05
042-04220-05
RES PRESET SMD 5K CER 4MM SQ
RES PRESET SMD 50K CER 4MM SQ
RES PRESET SMD 5K CER 4MM SQ
RES PRESET SMD 50K CER 4MM SQ
RES PRE 2K 10 TURN PNL MTG
RES PRESET SMD 500K CER 4MM SQ
RES PRESET SMD 2K CER 4MM SQ
SK101
SK103
*SK201
240-10000-05
240-10000-05
240-02100-44
CONN SMD SKT 8W 2R M-MATCH
CONN SMD SKT 8W 2R M-MATCH
SKT COAX MINI JACK PCB MT ANG.
01/07/00
Var
Copyright TEL
IPN 220-01404-03
M830P-00
Copyright TEL
T839 PCB Information
D5.3.7
01/07/00
IPN 220-01404-03
D5.3.8
T839 PCB Information
M830P-00
T839 Mechanical & Miscellaneous Parts (220-01404-03)
IPN
Legend Description
IPN
Legend Description
000-00030-95
15
Q137
319-01152-00
23
SHIELD A3M2250 F/THRU MTG
004-00687-02/3
18
#IC201, *#IC202
319-01190-01
SHIELD WALL HARM. FILTER
012-04100-05
35
CAP F/THRU 1N SUPPR FLTR S-MTG
319-01201-00
41
SHIELD LID HARM. FILTER
012-04150-01
26
CAP CER F/THRU 1N5 NO LEAD
319-01202-00
SHIELD CONTROL CIRCUIT
039-05050-00
11
*R223
319-30064-00
17
SPACER HSINK RF MODULE
045-06100-05
20
ASSY 100K NTC FOR MODULE
*R215, R219
345-00040-16
27
SCRW M3X20MM P/POZ ST BZ
349-00010-59
21
SCRW 6-32 X 3/8 P/PH T/T ZP
051-00005-36
*IC203, *IC205
349-00020-07
SCRW 4-40 X 5/16 P/POZ T/T BLK
349-00020-08
SCRW T/T 4-40X3/8 CSK POZI BZ
Secure *IC203/205 couplers to heatsink.
349-00020-09
13
SCRW T/T 4-40X3/8 IN P/POZ BLK
349-00020-36
47
LIM)SCREW TT M3X8m PANTORX BLK
349-00020-43
40
SCRW T/T M4X12MM P/POZ BZ
349-00020-49
38
SCRW T/T M4X35MM P/POZ BZ
352-00010-04
10
NUT M2.5 MACH HEX ST BZ
352-00010-29
46
NUT M4 NYLOC HEX
353-00010-10
12
WSHR M3 FLAT 7MMX0.6MM ST BZ
051-00006-02
SOLDER SPRING 1.3MM A4M1877
Support for front panel LED solder joints.
051-00642-01
32
COAX SEMI-RIG N-TYPE EXTN
065-00010-13
25
BEAD FER 7D 1.9X0.9X3.8
201-00030-02
WIRE T/C 7/0.2 PVC RED
Front panel LEDs.
201-00030-10
WIRE T/C 7/0.2 PVC BLACK
Front panel LEDs.
201-00050-25
AUTO 154 RED 41/0.3 PVC
DC+ from D-range PCB.
201-00050-26
AUTO 154 BLACK 41/0.3 PVC
DC- from D-range PCB.
356-00010-01
36
TAG SOLDER 3MM SHORT M6132/3.2
206-00010-11
COAX 50 OHM RG316-U PTFE
Coax from BNC connector to *SK201.
356-00010-03
TAG SOLDER 3MM LONG M614/3.2
LOOM RIBBON 8 WAY FOR PA
356-00010-05
19
TAG SOLDER 4MM LONG M6144/4.2
CABLE ASSY RG223/U N TO BNC
Exciter/PA connecting cable.
357-00010-45
39
CLAMP CABLE 4.8MM P CLIP
360-00010-41
44
BUSH SHORTY BLK
362-00010-07
14
GASKET SIL INSULATING TO-220
362-00010-13
16
BUSH INSULATING 1.1MM TOP HAT
362-00010-33
43
GROMMET LED MTG 3MM
219-02591-00
22
219-02592-00
220-01402-02
PCB T838/9 TEFLON DIRNL COUPLER
220-01404-03
PCB T838/9 PA MODULE DESIGN
240-00010-55
24
PLUG 15 W D RANGE W/W PNL MT
PL101
240-00100-43
PLG COAX MINI PIN CRIMP 1.5D
Coax from BNC connector to *SK201.
240-02010-54
SKT 15W DRANGE PNL MTG 125 C
Matching socket for D-range plug PL101.
365-00100-20
LABEL WHITE S/A 28X11MM
365-01391-01
LABEL 30X10.8 T/MARK VOID
365-01539-00
LABEL WARNING 120W/PWR CLAMP
240-02100-06
31
SKT COAX N TYPE PNL MTG OP-TER
369-00010-14
TIE CABLE NYLON 100X2.6MM
240-02100-17
33
SKT COAX BNC PNL JAC CRP RG316
399-00010-56
BAG PLASTIC 200X250MM
240-04020-62
SKT 2 W RECEP SHORTING LINK
LINK1
400-00020-07
SLEEVING 2MM SIL RUBBER
400-00020-30
HEATSHRINK 3MM
240-06010-14
CLAMP LATCHING 15 W D RANGE
Cover for D-range socket.
410-00010-43
PKG T296 AMPAC REF 73-46
240-06010-15
29
BLOCK LATCHING 15W D RANGE
240-06010-44
30
HOOD CONN UHF & N-TYPE
258-00010-03
37
FAN 12V 119X119X25MM TUBE AX
302-05204-00
34
BRKT A3M2314 F/THRU MTG
303-23146-00
48
COVER SIDE T838/9 PA
308-01007-01
45
HANDLE BASE STATION SERIES II
308-13122-02
HEATSINK T838/9 PA COMPLETE
308-13125-00
HEATSINK T839 COUPLER
316-06651-00
42
PANEL PA 100W REAR DRV SER II
01/07/00
Copyright TEL
IPN 220-01404-03
M830P-00
T839 PCB Information
D5.3.9
replace A4 pages D5.3.9/D5.3.10 with A3 pages D5.3.9/D5.3.10
Copyright TEL
01/07/00
IPN 220-01404-03
D5.3.10
T839 PCB Information
M830P-00
replace A4 pages D5.3.9/D5.3.10 with A3 pages D5.3.9/D5.3.10
01/07/00
Copyright TEL
IPN 220-01404-03
T839 PCB Information
M830P-00
D5.3.11
T839 Grid Reference Index (IPN 220-01404-03)
How To Use This Grid Reference Index
The first digit in the PCB layout reference is a "1" or "2", indicating the top or bottom side layout respectively, and the last two characters give the location of the component on that diagram.
The first digit in the circuit diagram reference is the sheet number, and the last two characters give the location of the component on
that sheet.
Device
PCB
Circuit
Note:
This grid reference index
covers both the T838 and
T839 and is reproduced in
both PCB Information sections for your convenience.
*C101
*C103
*C105
*C107
*C109
*C111
*C113
*C115
*C117
*C119
*C121
*C123
*C124
*C125
*C127
C129
C131
C132
C133
C137
C138
C139
C141
C143
C145
C147
C149
C151
C153
C155
C159
C161
C162
C164
C165
C167
C169
C171
C173
C174
C176
C178
C179
C180
C181
C182
C184
C185
C186
1:E4
1:E4
1:B3
1:B3
1:B3
1:C4
1:B5
1:B5
1:B5
1:B5
1:D4
1:D4
1:E3
1:C4
1:C4
1:B3
1:B3
1:A3
1:B4
1:B2
1:B2
1:B4
1:B3
1:E3
1:E3
1:D3
1:D3
1:C5
1:B5
1:D3
1:B3
1:B4
1:B3
1:B3
1:B3
1:K3
1:K3
1:K3
1:D4
1:E4
1:D4
1:C4
1:D3
1:E2
1:D3
1:D3
1:D4
1:D2
1:E2
Copyright TEL
1-B8
1-B9
1-D8
1-D9
1-D8
1-D8
1-F8
1-F8
1-F9
1-G8
1-B6
1-B6
1-C6
1-D7
1-D6
1-H5
1-J6
1-K7
1-K8
1-K8
1-L8
1-M6
1-M8
1-E7
1-F7
1-F6
1-F7
1-D5
1-D3
1-G3
1-H2
1-K4
1-L4
1-L4
1-M4
1-P3
1-P3
1-Q3
1-B0
1-B0
1-E0
1-F0
1-G2
1-H0
1-G0
1-H1
1-G0
1-J1
1-J0
Device
PCB
Circuit
Device
PCB
Circuit
Device
PCB
Circuit
C187
C188
C189
C190
C192
C193
C195
C201
*C202
*C203
*C204
C205
*C206
C207
*C208
*C209
*C210
*C212
*C213
C215
C216
*C217
C218
*C219
C220
C221
C222
C223
C224
C225
C226
C227
C229
*C230
*C231
*C232
*C233
*C234
*C240
C259
C261
C268
C270
C271
C272
C273
C294
C295
C297
C298
D101
D101
D103
D105
D105
D107
D109
D111
D111
1:D3
1:C2
1:C3
1:C3
1:B2
1:B2
1:C2
1:J7
1:H3
1:P7
1:M6
1:L7
1:P6
1:K7
1:H3
1:C5
1:C5
1:D5
1:D4
1:D5
1:H6
1:P3
1:H5
1:P2
1:E5
1:E5
1:E5
1:D5
1:D5
1:L6
1:D4
1:K6
1:H6
1:L4
1:L4
1:K4
1:K4
1:J4
1:H4
1:F7
1:F6
1:E6
1:D6
1:C6
1:B6
1:B6
1:D6
1:D6
1:C5
1:C6
1:B3
1:B3
1:P7
1:C2
1:C2
1:P7
1:P6
1:C2
1:C2
1-K1
1-L1
1-M1
1-N1
1-N1
1-P1
1-Q1
2-L5
2-B8
2-C1
2-E1
2-I5
2-C1
2-K5
2-C8
2-D8
2-E8
2-G9
2-H9
2-J8
2-B6
2-E3
2-C6
2-E3
2-D6
2-N8
2-E6
2-G7
2-M8
2-I4
2-H7
2-J4
2-K4
2-I2
2-I1
2-J1
2-K2
2-L1
2-K1
2-Q3
2-Q4
2-S2
2-T2
2-T2
2-U2
2-V2
2-R1
2-R1
2-L8
2-L8
1-H5
1-G5
1-K9
1-J2
1-J2
1-K5
1-L5
1-M1
1-M1
D113
D201
D202
D202
D203
IC101
IC101
IC101
IC101
IC101
IC103
IC103
IC103
IC103
IC103
IC105
IC105
IC105
IC107
IC109
#IC201
*#IC202
*IC203
IC204
IC204
IC204
*IC205
L101
L103
L105
*L201
*L202
L203
*L204
L206
L208
*L211
L215
L217
*L223
*L230
*L231
L233
*L236
L239
L241
L243
L245
L247
L248
L249
L264
LINK1
LINK2
LINK201
P101
P103
P105
P201
1:F7
1:F6
1:D4
1:D4
1:E6
1:D4
1:D4
1:D4
1:D4
1:D4
1:C4
1:C4
1:C4
1:C4
1:C4
1:D3
1:D3
1:D3
1:D3
1:B2
1:K7
1:K4
1:N5
1:D5
1:D5
1:D5
1:G5
1:K3
1:K2
1:E2
1:P7
1:H3
1:L7
1:C5
1:H5
1:E5
1:P2
1:L7
1:J7
1:J4
1:L4
1:L4
1:F6
1:H6
1:E5
1:D6
1:C6
1:C7
1:C6
1:D7
1:B6
1:C6
1:D3
1:P6
1:D5
1:A5
1:K3
1:K2
1:B6
1-Q2
2-Q3
2-I8
2-I8
2-R2
1-C6
1-G0
1-B8
1-C0
1-N0
1-D4
1-J8
1-F0
1-J5
1-E3
1-M0
1-P0
1-G2
1-K1
1-N1
2-I4
2-I1
2-F2
2-H7
2-H8
2-N8
2-P2
1-P3
1-Q3
1-K0
2-C1
2-B8
2-I6
2-D8
2-B7
2-D7
2-D3
2-I5
2-K5
2-K2
2-I3
2-I2
2-Q3
2-M2
2-R2
2-S3
2-T3
2-T2
2-U3
2-U2
2-V3
2-L8
1-L0
1-D1
2-F8
1-R9
1-R0
1-R0
2-V3
PL101
*Q101
*Q103
*Q105
*Q107
*Q109
Q111
Q113
Q115
Q117
Q119
Q121
Q123
Q125
Q127
Q129
Q131
Q133
Q135
Q136
Q137
Q201
R101
*R102
R103
R104
*R105
*R106
*R107
*R108
*R109
*R111
*R112
*R113
*R114
*R115
*R116
R117
R118
R119
*R120
*R121
*R122
R123
R124
R125
R126
R127
R128
R129
R130
R131
R132
R133
R134
R135
R136
R137
R138
1:L3
1:C3
1:B3
1:C4
1:B5
1:A5
1:A3
1:A3
1:A3
1:B4
1:B4
1:B3
1:E3
1:E3
1:D3
1:B4
1:B3
1:D4
1:E2
1:E3
1:D2
1:D5
1:E4
1:E4
1:E4
1:E4
1:D4
1:B3
1:C4
1:B3
1:C3
1:B5
1:B5
1:B5
1:C4
1:C5
1:D4
1:C4
1:D4
1:D4
1:E3
1:C4
1:C4
1:B4
1:B4
1:B4
1:B3
1:A3
1:A3
1:B4
1:B4
1:A3
1:B5
1:A3
1:B3
1:P7
1:A3
1:B3
1:B4
1-C2
1-C9
1-E8
1-D7
1-F8
1-G9
1-J7
1-K6
1-L7
1-K8
1-L6
1-L8
1-E7
1-F7
1-G7
1-L4
1-M5
1-D0
1-H0
1-H0
1-J0
2-K8
1-A8
1-A9
1-A8
1-B9
1-C8
1-C8
1-D7
1-E9
1-E9
1-E8
1-E9
1-F9
1-A6
1-A6
1-A7
1-A6
1-B6
1-C7
1-H7
1-C7
1-D6
1-H7
1-H8
1-H8
1-H6
1-H7
1-J7
1-J9
1-J8
1-J7
1-J8
1-K7
1-K6
1-K9
1-K7
1-K6
1-L6
01/07/00
IPN 220-01404-03
T839 PCB Information
D5.3.12
M830P-00
Device
PCB
Circuit
Device
PCB
Circuit
R141
R142
R143
R144
R145
R146
R148
R149
R150
R151
R152
R153
R154
R155
R156
R157
R158
R159
R160
R161
R162
R163
R164
R165
R166
R168
R169
R170
R171
R172
R173
R174
R175
R176
R177
R178
R179
R180
R181
R182
R183
R184
R185
R186
R187
R188
R189
R190
R191
R192
R193
R194
R195
R196
R197
*R201
*R202
R203
*R204
R205
*R206
R207
*R208
R209
R210
*R211
R212
R213
R214
*R215
*R216
*R217
R218
R219
R220
R222
1:E3
1:E3
1:E4
1:D3
1:E4
1:E4
1:C5
1:C5
1:C4
1:B5
1:B5
1:C5
1:C5
1:D3
1:D3
1:D4
1:C4
1:C4
1:C3
1:B3
1:B3
1:P8
1:B3
1:B4
1:P7
1:E4
1:E4
1:D4
1:E4
1:E4
1:P6
1:P6
1:D4
1:D4
1:D4
1:D3
1:D4
1:D4
1:E3
1:D4
1:D4
1:E3
1:E2
1:D2
1:E2
1:D2
1:D2
1:C3
1:B2
1:B2
1:C2
1:D2
1:D3
1:D3
1:D3
1:N6
1:N6
1:L7
1:N6
1:K7
1:C5
1:D4
1:C5
1:D5
1:D5
1:D4
1:D4
1:D5
1:E4
1:H3
1:P6
1:P6
1:E5
1:H6
1:E5
1:D5
1-C6
1-E7
1-F6
1-F6
1-F7
1-G7
1-D5
1-C4
1-F0
1-D5
1-C3
1-F4
1-F3
1-F2
1-F3
1-G0
1-H3
1-H4
1-J5
1-J3
1-K4
1-K5
1-K4
1-K4
1-L5
1-A1
1-A0
1-B0
1-B0
1-B0
1-C1
1-C1
1-C0
1-D0
1-D0
1-E1
1-E0
1-E0
1-F2
1-E0
1-F1
1-G1
1-J0
1-H1
1-H0
1-L1
1-L1
1-M1
1-P1
1-P1
1-Q1
1-H0
1-J0
1-J0
1-L1
2-D1
2-D1
2-I5
2-D1
2-K4
2-E8
2-F8
2-G9
2-G8
2-G8
2-H9
2-I8
2-E7
2-J8
2-B8
2-E2
2-E2
2-E7
2-B6
2-F7
2-G7
*R223
R224
R225
R228
R229
*R230
R231
*R232
R237
RV101
RV103
RV105
RV107
RV109
*RV111
RV113
RV115
SK101
SK103
*SK201
*SK203
1:F2
1:D4
1:E6
1:E4
1:D4
1:L4
1:F5
1:K4
1:C5
1:C4
1:C4
1:C3
1:C3
1:P5
1:P5
1:C3
1:C3
1:K3
1:B4
1:N3
1:N7
2-P2
2-G7
2-R3
2-G7
2-H7
2-I2
2-Q2
2-K1
2-K8
1-H8
1-H6
1-J5
1-J3
1-C2
1-D1
1-D0
1-K0
1-A2
1-B2
2-D3
2-C1
01/07/00
Device
PCB
Circuit
Device
PCB
Circuit
Copyright TEL
EI
M830P-00
Part E
T830 VCO PCB Information
This part of the manual provides the parts list, grid reference index, PCB layouts and circuit diagram for the T830 VCO PCB. There is a detailed table of contents at the start of Section 2.
Section
Title
Introduction
T830 VCO PCB
Copyright TEL
IPN
Page
1.1
220-01176-03
2.1
01/07/00
EII
01/07/00
M830P-00
Copyright TEL
Introduction
M830P-00
E1.1
Introduction
PCB Identification
All PCBs are identified by a unique 10 digit “internal part number” (IPN), e.g. 220-12345-00, which
is screen printed onto the PCB (usually on the top side), as shown in the example below:
The last 2 digits of this number define the issue status, which starts at 00 and increments through 01,
02, 03, etc. as the PCB is updated. Some issue PCBs never reach full production status and are therefore not included in this manual. A letter following the 10 digit IPN has no relevance in identifying
the PCB for service purposes.
Note:
It is important that you identify which issue PCB you are working on so that you can
refer to the appropriate set of PCB information.
Parts Lists
The 10 digit numbers (000-00000-00) in this Parts List are “internal part numbers” (IPNs). We can
process your spare parts orders more efficiently and accurately if you quote the IPN and provide a
brief description of the part.
The components listed in this parts list are divided into two main types: those with a circuit reference (e.g. C2, D1, R121, etc.) and those without (miscellaneous and mechanical).
Those with a circuit reference are grouped in alphabetical order and then in numerical order within
each group. Each component entry comprises three or four columns, as shown below:
circuit reference lists components
in alphanumeric
order
variant column indicates that this is
a variant component
which is fitted only to
the product type listed
description gives a brief description
of the component
Internal Part Number order the component
by this number
The mechanical and miscellaneous section lists the variant and common parts in IPN order.
Copyright TEL
01/07/00
E1.2
Introduction
M830P-00
Parts List Amendments
At the front of the parts list is the Parts List Amendments box (an example of which is shown
below). This box contains a list of component changes which took place after the parts list and diagrams in this section were compiled. These changes (e.g. value changes, added/deleted components, etc.) are listed by circuit reference in alphanumeric order and supersede the information
given in the parts list or diagrams. Components without circuit references are listed in IPN order.
The number in brackets at the end of each entry refers to the Tait internal Change Order document.
IPN of new
component
Change Order
number
Parts List Amendments
R306
Changed from 180Ω to 560Ω (036-13560-00) to increase sensitivity (71003).
circuit reference
or IPN
description
of change
Variant Components
A variant component is one that has the same circuit reference but different value or specification in
different product types. Where two products share the same PCB, the term “variant” is also used to
describe components unplaced in one product. Variant components have a character prefix, such as
“&”, “=” or “#”, before the circuit reference (e.g. &R100).
The table below explains the variant prefixes used in T800 Series II products:
If the variant prefix is. . .
01/07/00
the component will. . .
change according to channel spacing
change according to frequency stability
change according to frequency band
change or be placed/unplaced for special applications
be unplaced in one product
(where two products share the same PCB)
Copyright TEL
Introduction
M830P-00
E1.3
Grid Reference Index
This section contains a component grid reference index to help you find components and labelled
pads on the PCB layouts and circuit diagrams. This index lists the components and pads in alphanumeric order, along with the appropriate alphanumeric grid references, as shown below:
components listed
in alphanumeric order
PCB layout
reference
circuit diagram
reference
component location
on the sheet
sheet number
component location
on the layer
layer number 1 = top side layer
2 = bottom side layer
Copyright TEL
01/07/00
E1.4
01/07/00
Introduction
M830P-00
Copyright TEL
T830 VCO PCB Information
M830P-00
E2.1
T830 VCO PCB
This section contains the following information.
IPN
220-01176-03
Copyright TEL
Section
Page
Parts List
2.3
Mechanical & Miscellaneous Parts
2.5
Grid Reference Index
2.6
PCB Layout - Bottom Side
2.7
PCB Layout - Top Side
2.8
Circuit Diagram
2.9
01/07/00
E2.2
01/07/00
T830 VCO PCB Information
M830P-00
Copyright TEL
IPN 220-01176-03
T830 VCO PCB Information
M830P-00
E2.3
T830 VCO Parts List (IPN 220-01176-03)
How To Use This Parts List
The components listed in this parts list are divided into two main types: those with a circuit reference (e.g. C2, D1, R121, etc.) and
those without (miscellaneous and mechanical).
Those with a circuit reference are grouped in alphabetical order and then in numerical order within each group. Each component
entry comprises three or four columns: the circuit reference, variant (if applicable), IPN and description. A letter in the variant column
indicates that this is a variant component which is fitted only to the product type listed. Static sensitive devices are indicated by an (S)
at the start of the description column.
The mechanical and miscellaneous section lists the variant and common parts in IPN order.
The Parts List Amendments box below lists component changes that took place after the parts list and diagrams in this section were
compiled. These changes (e.g. value changes, added/deleted components, etc.) are listed by circuit reference in alphanumeric order
and supersede the information given in the parts list or diagrams. Components without circuit references are listed in IPN order.
Parts List Amendments
#C6
Copyright TEL
Tx High (A):
Tx High (A):
incorrectly listed as 22p (015-22220-01) - correct value is 18p (015-22180-01).
changed from 18p (015-22180-01) to 15p (015-22150-01) to improve the loop voltage tuning range
at the top of the band (710943/44).
01/07/00
IPN 220-01176-03
T830 VCO PCB Information
E2.4
Ref
Var
IPN
Description
Variant
Code
Description
T837
(MHz)
Tx high
148 - 174
Tx low
136 - 156
C2
#C3
#C3
#C4
#C4
#C5
#C5
#C6
#C6
#C7
#C7
C8
C9
C10
C11
C12
C13
C14
C15
C16
C17
C18
C19
C20
C21
C22
C23
C24
C25
#C26
#C26
015-23680-08
015-22180-01
015-22180-01
015-22220-01
015-22220-01
015-22220-01
015-22220-01
015-22220-01
015-22180-01
015-22270-01
015-22330-01
015-23120-01
015-23680-08
015-21220-01
015-23680-08
015-23680-08
025-08100-02
015-23680-08
015-23680-08
015-22560-01
015-22560-01
015-23680-08
015-05470-08
015-23680-08
015-23680-08
015-23680-08
015-21820-01
015-21680-01
015-23680-08
036-10000-00
036-10000-00
028-02111-00
16PF TRM CAP PISTON PREC.
D1
D2
D3
D4
001-00012-63
001-00012-63
001-00012-63
001-00012-63
S) DIODE VARICAP BB809
S) DIODE VARICAP BB809
S) DIODE VARICAP BB809
S) DIODE VARICAP BB809
L1
L2
#L3
#L3
L4
L5
L6
L7
L8
056-00021-56
056-00021-60
055-01004-00
055-01000-00
056-00021-52
056-00021-56
052-08135-35
056-00021-56
052-08130-45
IND FXD 3.3UH AX 10X4.2 PHEN
IND FXD 330NH AX N/MAG 6.6*2.7
COIL TROID 103NH 22P 9T T830TX
COIL TOROID 110NH 22P 10T T830
IND FXD 820NH 10% NON MAGNETIC
IND FXD 3.3UH AX 10X4.2 PHEN
COIL A/W 3.5T/3.5MM HOR 0.8MM
IND FXD 3.3UH AX 10X4.2 PHEN
COIL A/W 4.5T/3.0MM HOR 0.8MM
Q1
Q2
Q3
Q4
Q5
000-10003-10
000-10057-10
000-10057-10
000-10008-57
000-00032-47
S) XSTR SMD BFJ310 JFET UHF
S) XSTR SMD BR571 NPN SOT23
S) XSTR SMD BR571 NPN SOT23
S) XSTR SMD BCW70 PNP SOT23 SS
S) XSTR MRF559 NPN XPACK 0.5W
R1
R3
#R5
#R5
R6
R7
R8
R9
R10
R11
R12
R13
R14
R15
R16
R17
R18
R19
R20
R21
R22
R23
R24
R25
036-12220-00
036-11470-00
036-13390-00
036-13390-00
036-12560-00
036-14100-00
036-12560-00
036-14100-00
036-12100-00
036-14270-00
036-13180-00
036-12220-00
036-12560-00
036-12220-00
036-13270-00
036-13270-00
036-12180-00
036-14100-00
036-14680-00
036-14100-00
036-14220-00
036-12180-00
036-12220-00
036-13220-00
RES M/F 0805 22E 5%
RES M/F 0805 4E7 10%
RES M/F 0805 390E 5%
RES M/F 0805 390E 5%
RES M/F 0805 56E 5%
RES M/F 0805 1K 5%
RES M/F 0805 56E 5%
RES M/F 0805 1K 5%
RES M/F 0805 10E 5%
RES M/F 0805 2K7 5%
RES M/F 0805 180E 5%
RES M/F 0805 22E 5%
RES M/F 0805 56E 5%
RES M/F 0805 22E 5%
RES M/F 0805 270E 5%
RES M/F 0805 270E 5%
RES M/F 0805 18E 5%
RES M/F 0805 1K 5%
RES M/F 0805 6K8 5%
RES M/F 0805 1K 5%
RES M/F 0805 2K2 5%
RES M/F 0805 18E 5%
RES M/F 0805 22E 5%
RES M/F 0805 220E 5%
01/07/00
Ref
Var
IPN
Description
CAP CER 0805 680P 10% X7R 50V
CAP CER 0805 18P 5% NPO 50V
CAP CER 0805 18P 5% NPO 50V
CAP CER 0805 22P 5% NPO 50V
CAP CER 0805 22P 5% NPO 50V
CAP CER 0805 22P 5% NPO 50V
CAP CER 0805 22P 5% NPO 50V
CAP CER 0805 22P 5% NPO 50V
CAP CER 0805 18P 5% NPO 50V
CAP CER 0805 27P 5% NPO 50V
CAP CER 0805 33P 5% NPO 50V
CAP CER 0805 120P 5% NPO 50V
CAP CER 0805 680P 10% X7R 50V
CAP CER 0805 2P2+-1/4P NPO 50V
CAP CER 0805 680P 10% X7R 50V
CAP CER 0805 680P 10% X7R 50V
CAP TANT BEAD 10M 10% 16V
CAP CER 0805 680P 10% X7R 50V
CAP CER 0805 680P 10% X7R 50V
CAP CER 0805 56P 5% NPO 50V
CAP CER 0805 56P 5% NPO 50V
CAP CER 0805 680P 10% X7R 50V
CAP CER 1206 47N 10% X7R 50V
CAP CER 0805 680P 10% X7R 50V
CAP CER 0805 680P 10% X7R 50V
CAP CER 0805 680P 10% X7R 50V
CAP CER 0805 8P2+-1/4P NPO 50V
CAP CER 0805 6P8+-1/4P NPO 50V
CAP CER 0805 680P 10% X7R 50V
RES M/F 0805 ZERO OHM
RES M/F 0805 ZERO OHM
CV1
M830P-00
Copyright TEL
IPN 220-01176-03
T830 VCO PCB Information
M830P-00
E2.5
T830 VCO Mechanical & Miscellaneous Parts (220-01176-03)
IPN
Description
220-01176-03
PCB T83X VCO
240-00025-36
PLUG 32WAY 1ROW PC MTG HARWIN
345-00040-10
SCRW M3X6MM P/POZ ST BZ
345-00060-08
SCRW M5 X 16 CH SLOT PLASTIC
350-00016-42
SPACER 5MM HI 8MM ST 2.5MM HO
352-00010-14
NUT M5 HEX PLASTIC T800 TOROID
353-00010-10
WSHR M3 FLAT 7MMX0.6MM ST BZ
353-00010-13
WSHR M3 S/PROOF INT BZ
353-00010-41
WSHR M6 NYLON BULTE LOCK
Copyright TEL
IPN
Legend Description
01/07/00
IPN 220-01176-03
T830 VCO PCB Information
E2.6
M830P-00
T830 VCO Grid Reference Index (IPN 220-01176-03)
How To Use This Grid Reference Index
The first digit in the PCB layout reference is a "1" or "2", indicating the top or bottom side layout respectively, and the last two characters give the location of the component on that diagram.
The first digit in the circuit diagram reference is the sheet number, and the last two characters give the location of the component on
that sheet.
Device
PCB
Circuit
Device
PCB
Circuit
C2
#C3
#C4
#C5
#C6
#C7
C8
C9
C10
C11
C12
C13
C14
C15
C16
C17
C18
C19
C20
C21
C22
C23
C24
C25
#C26
C40
1:B7
1:C6
1:C6
1:D6
1:C5
1:D5
1:D6
1:D4
1:C4
1:C4
1:D8
1:D7
1:C3
1:C4
1:B3
1:B3
1:B2
1:D1
1:D3
1:E3
1:C3
1:C2
1:C2
1:C2
1:C5
1:D5
1-B3
1-D4
1-D4
1-D3
1-E4
1-E3
1-F3
1-H3
1-F3
1-G4
1-F6
1-G6
1-G5
1-H5
1-J5
1-J4
1-J5
1-J6
1-J7
1-K6
1-K5
1-K4
1-L4
1-L5
1-D4
1-D3
R8
R9
R10
R11
R12
R13
R14
R15
R16
R17
R18
R19
R20
R21
R22
R23
R24
R25
1:D4
1:D3
1:C4
1:C3
1:C4
1:B3
1:C7
1:D8
1:B4
1:A4
1:B4
1:B4
1:E2
1:B2
1:D2
1:D2
1:B2
1:C3
1-G3
1-G4
1-G4
1-G5
1-G5
1-G6
1-F5
1-G6
1-H4
1-H4
1-H5
1-H6
1-J6
1-K6
1-J7
1-K7
1-K5
1-K5
CV1
1:C5
1-D3
D1
D2
D3
D4
1:C7
1:C7
1:D7
1:D7
1-B4
1-C4
1-B3
1-C3
L1
L2
#L3
L4
L5
L6
L7
L8
1:C8
1:B7
1:B6
1:D6
1:D7
1:A4
1:D2
1:C2
1-B3
1-C3
1-D4
1-E3
1-F6
1-J4
1-K6
1-L5
PL-2
PL-3
PL-4
PL-5
2:B4
2:C3
2:C8
2:C1
2-F3
2-G3
2-F4
2-G4
Q1
Q2
Q3
Q4
Q5
1:C6
1:D4
1:C4
1:D2
1:B3
1-F3
1-G3
1-G4
1-K7
1-K5
R1
R3
#R5
R6
R7
1:B8
1:C7
1:D6
1:D4
1:D3
1-B3
1-C4
1-F3
1-G3
1-G3
01/07/00
Device
PCB
Circuit
Device
PCB
Circuit
Copyright TEL
IPN 220-01176-03
T830 VCO PCB Information
M830P-00
E2.7
PL-4
PL-2
PL-3
PL-5
T830 VCO PCB - Bottom Side
220-01176-03
Copyright TEL
01/07/00
IPN 220-01176-03
E2.8
T830 VCO PCB Information
M830P-00
SCREW2
R15 C12
R1
L1
C13
D1
D2
R3 R14 D4 D3
C2
L2
L5
*C3
*C4 *C5
*R5
*C26
*L3
Q1 C8
TBADMARK
*C6 *C7
L4
C40
Q3
C10
R6
C11
R10
Q2
R11
R9
C14
Q5
R25
C17
R8
C22
C24
L7
R23
L8
Q4
C25
R22 R20
C19
SCREW3
C20 R7
C18 C23
SCREW1
C9
C21
PCB
R13
R21 R24
C16
L6
R12 C15
R19
R17 R18
R16
CV1
T830 VCO PCB - Top Side
220-01176-03
01/07/00
Copyright TEL
FI
M830P-00
Part F
Installation
This part of the manual is divided into the sections listed below. These sections give a
brief description of the basic rack mounting and wiring procedures for the T837 exciter
and T839 power amplifier.
Section
Title
Page
T837 Installation
1.1
1.1
Rack Mounting
1.1
1.2
Rack Wiring
1.1
1.3
Power Supply
1.1
1.4
Reverse Polarity & Overvoltage Protection
1.1
T838/839 Installation
2.1
2.1
Rack Mounting
2.1
2.2
Rack Wiring
2.1
2.3
Power Supply
2.2
2.4
Reverse Polarity & Overvoltage Protection
2.2
N-Type Connector Assembly
3.1
Figure
Title
Page
1.1
T800-41-0002 Double Guide Kit
1.1
1.2
T837 Chassis Connectors
1.1
1.3
T837 D-Range 1 Wiring - Rear View
1.1
2.1
T800-45-0001 PA Guide Kit
2.1
2.2
T838/839 Chassis Connectors
2.1
2.3
T838/839 PA In Latched Position
2.1
2.4
T838/839 D-Range Wiring - Rear View
2.1
3.1
N-Type Plug Assembly Details
3.1
Copyright TEL
01/07/00
FII
01/07/00
M830P-00
Copyright TEL
N-Type Connector Assembly
M830P-00
F3.1
N-Type Connector Assembly
Make sure that any N-type plugs connected to Tait equipment are assembled according
to the manufacturer’s instructions. It is particularly important that the centre pin in the
plug is positioned correctly:
• if the pin is positioned too far back in the plug, it may not make good contact
with the socket;
• if the pin protrudes too far (as shown in Figure 3.1), or is not straight, it may
damage the socket when the plug is screwed in.
N-Type Plug and Socket Cross-section
Correct pin position
Extended pin position
No damage to socket
Will damage socket
Hand tighten only
Figure 3.1 N-Type Plug Assembly Details
Copyright TEL
01/07/00
F3.2
01/07/00
N-Type Connector Assembly
M830P-00
Copyright TEL
GI
M830P-00
Part G
T800-28-0X00 Paging Rack Frame
This part of the manual is divided into the sections listed below. These sections provide
some brief information on the T800-28-0X00 paging rack frame and its associated backplane PCB, the T800-55-0000.
Section
Title
Page
T800-28-0X00 General Information
1.1
T800-55-0000 Backplane PCB
2.1
Figure
Title
Page
2.1
T800-55-0000 PL1 Wiring
2.2
2.2
T800-55-0000 PCB Layout - Top Side (Outer)
2.3
2.3
T800-55-0000 PCB Layout - Bottom Side (Inner)
2.4
2.4
T800-55-0000 Circuit Diagram
2.5
Copyright TEL
01/07/00
GII
01/07/00
M830P-00
Copyright TEL
T800-28-0X00 General Information
M830P-00
G1.1
T800-28-0X00 General Information
The T800-28-0X00 is a single channel rack frame with a maximum output of 100W and
provision for a high stability oscillator to enable the paging function, as described
below:
Operational Characteristics
• single channel - paging
• up to 100W RF output
• speaker/programming panel
• high stability oscillator
• DC line fuse
• earth stud
• backplane PCB interface
Power Supply Options
• T800-28-0000 AC only
• T800-28-0100 external DC only
• T800-28-0200 AC and external DC
• T800-28-0300 AC and battery
• T800-28-0400 external DC and battery
• T800-28-0500 AC and external DC and battery
Configuration Options
• duplexer
• coaxial relay
• fans - single or double
• interfaces to TA703-00-XXXX changeover module
using TA703-11-0010 installation kit
• microphone
• DC converter
Mechanical Specifications
• 5U x 483mm (19") to house up to seven modules
• height
222mm
• width
482mm
• depth
322mm plus 50mm clearance space
• weight 25W 50W 100W -
Copyright TEL
12.75kg
16.5kg
16.85kg
01/07/00
G1.2
01/07/00
T800-28-0X00 General Information
M830P-00
Copyright TEL
T800-55-0000 Backplane PCB
M830P-00
G2.1
T800-55-0000 Backplane PCB
The T800-55-0000 paging backplane PCB is designed for use in the T800-28-0X00 paging
rack frame. The PCB mounts across the rear panel of the T800-41-0003 triple module
rack frame guide, and has provision for the following modules:
• high stability oscillator
• repeater/link receiver (optional)
• paging exciter/transmitter (25, 50 or 100W).
These modules plug directly into the D-range sockets provided on the inner side of the
PCB (both D-range 1 and D-range 2 are provided for). The other side of the PCB features:
• a programming port
• two DIP switches for external channel selection
• one 25-way OEM D-range connector (refer to Figure 2.1)
• one 11-way D-range connector with provision for an external frequency reference.
The T800-55-0000 also allows the fitting of an optional link transmitter/repeater, but
will not accept personality PCBs.
Copyright TEL
01/07/00
G2.2
T800-55-0000 Backplane PCB
Pin
Function
Rx line 1
Rx aux 2
Rx aux 1
Rx line 4
Tx line 1
POCSAG data
lock detect
Tx line 4
signal strength (RSSI)
10
speaker +ve
11
Tx tone input
12
reverse power alarm
13
0V
14
Rx gate
15
Tx key
16
Rx relay common
17
Rx relay normally open
18
Rx inhibit
19
Data/speech (mode select)
20
opto key +
21
opto key -
22
forward power alarm
M830P-00
23
24
Rx audio 1
25
13.8V (fused)
Figure 2.1 T800-55-0000 PL1 Wiring
01/07/00
Copyright TEL
R2
R1
D5
F1
F1
F1
D5
25
13
PL1
PL1
R9
14
15
SK4
R4
D3 R7
R6
FAN CONTROL
R4
R7
R6
TP1
S2
TP2
S2
S2
CCL8 LN5 FAN CONTROL
1-2 TX KEY
2-3 FAN PERM ON
CCL8
Q3
TP3
TP1
TP2
TP3
15
R5
Q1
LOCK DETECT 1
SIG STRENGTH
LOCK DETECT 2
R2
R1
LN1 LN1
HI/LO
1 2 3
LN2 LN2
MODE SELECT
LN5
R9
D3
CCL7
3 2 1
Q3
CCL6
CHANNEL CHANGE LINKS
CCL1
FAN
CN2
LN5
CCL5
S1
S1
15
SK5
LN8
LINE 1
LN9
LINE 4
RX GATE TO TX KEY LN10 LN10
CCL4
-35
S1
LN7
CN2
CCL3
LN3
10
SK6
RJ1
R5
SK3
Q1
RJ1
LN4
LN4
R8
D4
Q2
T800-55-0000
220-01582-02
RELAY
CN1
CN1
Q2
RX
D2
D1
D2
D1
R3
SK2
R3
15
INHIBIT
R8
D4
13V8
CN3
CN3
15
SK1
SK9
SK8
SK8
SK9
LINK
HOLDER
LN11
LN6
CENTRE
LN7
LN6
LN8
LN9
DATA CONNECT
CCL2
LN3
SK7
CCL1
SK7
15
01/07/00
Copyright TEL
G2.3
T800-55-0000 Backplane PCB
M830P-00
Figure 2.2 T800-55-0000 PCB Layout - Top Side (Outer)
T800-55-0000 Backplane PCB
220-01582-02
SK1
SK1
SK2
SK2
SK3
SK3
SK4
SK4
SK5
SK5
SK6
SK6
M830P-00
G2.4
Figure 2.3 T800-55-0000 PCB Layout - Bottom Side (Inner)
01/07/00
Copyright TEL
HI
M830P-00
Part H
T800 Ancillary Equipment
This Part of the manual features a brief description of the major ancillaries that may be
used with T800 Series II equipment. For a comprehensive list of available ancillary
equipment, please contact your nearest Tait Dealer or Customer Service Organisation.
Section
Page
Programming Kits
General Ancillaries
External Frequency Reference
Rack Frame Guides
Rack Frame Ancillaries
Front Panels
Power Supplies
Copyright TEL
01/07/00
HII
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M830P-00
Copyright TEL
M830P-00
T800 Ancillary Equipment
H1
T800 Ancillary Equipment
Programming Kits
T800-01-0000
The T800-01-0000 kit is used for programming T800 Series II base station equipment
using a standard IBM (or compatible) PC.
The kit comprises the following items:
PGM800Win programming software user's manual
PGM800Win Windows based programming software on 3ë" floppy discs
T800-01-0002 programming cable.
T800-01-0001
The T800-01-0001 kit is the same as the T800-01-0000 kit described above, but with the
addition of the T800-01-0004 module programming interface.
T800-01-0002
The T800-01-0002 programming cable connects the PC directly to the programming
socket on the T800 Series II rack frame speaker panel or backplane PCB, thus enabling
T800 Series II modules to be read or programmed while in the rack frame. It can also
connect to the programming socket on the T800-01-0004 programming module interface
if the module is to be read or programmed while out of the rack frame.
T800-01-0003
The T800-01-0003 programming kit contains a T800-01-0002 programming cable and a
T800-01-0004 programming module interface.
T800-01-0004
The T800-01-0004 programming module interface is designed to allow a PC to connect
directly to a T800 Series II module. It comprises a small PCB on which is mounted a
D-range socket, a programming socket, a Micromatch socket and a DC input connector.
The T800-01-0004 plugs directly into D-range 1 or D-range 2 (selected by a switch on the
PCB), or into SK805 in the microcontroller compartment via the supplied ribbon cable
loom, and is then connected to the PC with a T800-01-0002 programming cable.
Refer to the T800 Ancillary Equipment Service Manual for more information.
Copyright TEL
01/07/00
H2
T800 Ancillary Equipment
M830P-00
General Ancillaries
T004-72 RF Coaxial Relay
The T004-72 is an RF coaxial relay assembly fitted with three female N-type connectors,
and comes complete with a mounting bracket and two coaxial cables terminated in male
N-type connectors. It can be used, for example, in base station applications where the
receiver and transmitter share the same antenna, in which case it can be driven by the
T800 Series II transmitter/exciter relay driver.
External Frequency Reference
T801-10 OCXO Module
The T801-10 OCXO module provides a high stability frequency source to which the synthesiser within a T800 Series II base station can be locked. This will provide T800 Series
II transmitters with the frequency stability required for simulcast transmission. The
master standard within the T801-10 is a high quality ovenised crystal oscillator (OCXO).
Three outputs are provided on the rear panel, which allows up to three T800 Series II
transmitters to be referenced to the source oscillator.
Refer to M801-10.
01/07/00
Copyright TEL
M830P-00
T800 Ancillary Equipment
H3
Rack Frame Guides
T800-41-0001
The T800-41-0001 rack frame guide is designed to fit into a T800 Series II rack frame and
will accept one T800 Series II module (except for power supplies and power amplifiers
which must use their own guides). It is supplied disassembled and comprises a top and
bottom rail, a rear panel, two D-range sockets and mounting screws.
T800-41-0002
The T800-41-0002 rack frame guide is designed to fit into a T800 Series II rack frame and
will accept two T800 Series II modules (except for power supplies and power amplifiers
which must use their own guides). It is supplied disassembled and comprises two top
and bottom rails, a double width rear panel, four D-range sockets and mounting screws.
T800-41-0003
The T800-41-0003 rack frame guide is designed to fit into a T800 Series II rack frame and
will accept three T800 Series II modules (except for power supplies and power amplifiers which must use their own guides). It is supplied disassembled and comprises three
top and bottom rails, a triple width rear panel, six D-range sockets and mounting
screws.
T800-41-0004
The T800-41-0004 rack frame guide is designed to fit into a T800 Series II rack frame and
will accept four T800 Series II modules (except for power supplies and power amplifiers
which must use their own guides). It is supplied disassembled and comprises four top
and bottom rails, a four-module wide rear panel, eight D-range sockets and mounting
screws.
T800-42-0000
The T800-42-0000 rack frame guide will allow a duplexer to be mounted in a T800 Series
II rack frame. It occupies a single module space and comprises a folded metal chassis,
mounting brackets and screws.
Copyright TEL
01/07/00
H4
T800 Ancillary Equipment
M830P-00
T800-42-0001
The T800-42-0001 rack frame guide is the same as the T800-42-0000 described above, but
with the addition of a duplexer front panel.
T800-42-0002
The T800-42-0002 rack frame guide is the same as the T800-42-0000 described above, but
with the addition of a blank front panel.
T800-43-0000
The T800-43-0000 rack frame guide is designed to fit into a T800 Series II rack frame and
will accept one T300 or T1500 Series module (e.g. T318-02, T1511). It is supplied disassembled and comprises a top and bottom rail, two T300 D-range socket boxes and
mounting screws. The T800-43-0000 is not compatible with the T800 Series II rack frame
backplane PCB. Consult your nearest Tait Dealer or Customer Service Organisation for
more details about T300/T1500 Series compatibility with T800 Series II rack frames.
T800-43-0001
The T800-43-0001 is the same as the T800-43-0000 but is supplied with only one D-range
socket box.
T800-44-0000
The T800-44-0000 rack frame guide is designed to fit into a T800 Series II rack frame and
will accept one T800 Series II power supply. It comprises a top and bottom rail and
mounting screws.
T800-45-0000
The T800-45-0000 rack frame guide is designed to fit into a T800 Series II rack frame and
will accept one T800 Series II 50W power amplifier. It comprises a top guide stop, a bottom guide rail and mounting screws.
T800-45-0001
The T800-45-0001 rack frame guide is designed to fit into a T800 Series II rack frame and
will accept one T800 Series II 100W power amplifier. It comprises a top guide stop, a
bottom guide rail, extra mounting brackets for the double width front panel and mounting screws.
01/07/00
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M830P-00
T800 Ancillary Equipment
H5
Rack Frame Ancillaries
T800-13-0000 Extender Rail
The T800-13-0000 extender rail allows a T800 Series II receiver, exciter or transmitter to
be operated out of the rack frame with the covers off for tuning purposes. It is fitted
with two 15-way D-range connectors.
T800-14-0000 Extender Rail
The T800-14-0000 extender rail is the same as the T800-13-0000, but is intended for
equipment using an external reference (e.g. Quasi-Sync). It thus has one 15-way
D-range, and one 11-way D-range incorporating a miniature RF connector.
T800-19-0000 Rack Mounting Fan
The T800-19-0000 fan is designed to fit into the base of any standard 483mm rack frame
without affecting its ability to house seven modules. The two mounting rails are
secured to the rack frame side panels, and the fan is screwed onto the rails under the
required module. The kit contains all mounting hardware.
T800-19-0010 Rack Mounting Fan
The T800-19-0010 fan is designed to fit into the base of any standard 483mm rack frame
without affecting its ability to house seven modules. The fan is mounted directly onto
the underside of the bottom guide rails with two mounting brackets. The kit contains
all mounting hardware.
Copyright TEL
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H6
T800 Ancillary Equipment
M830P-00
Front Panels
T800-15-0000 Speaker Panel
A 60mm speaker panel fitted with a 4Ω speaker and programming socket. It comes
complete with mounting hardware and a cable to connect the programming socket to
the backplane PCB.
T800-15-0001 Speaker Panel
A 60mm speaker panel fitted with a 4Ω speaker, complete with mounting hardware.
T800-17-0010 Circuit Breaker Panel
A 60mm front panel fitted with a 10A magnetic circuit breaker. The circuit breaker also
functions as an on/off switch to control the supply of power to the rack frame. The
T800-17-0010 is intended primarily for use with rack frames powered by batteries (or
with a battery back-up supply) and comes complete with mounting hardware.
T800-17-0020 Circuit Breaker Panel
The same as the T800-17-0010, but fitted with a 20A circuit breaker.
T800-40-0000 Blank Panel Fitting Kit
The mounting brackets and screws necessary to fit a T800 Series II 60mm blank front
panel into a T800 Series II rack frame.
T800-40-0001 Blank Panel
A T800 Series II 60mm blank panel complete with mounting brackets and screws.
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M830P-00
T800 Ancillary Equipment
H7
Power Supplies
T808-10-0000 Mains Power Supply
The T808-10-0000 is a switching power supply capable of supplying up to 25A at 11-14V
DC. It requires a mains supply of 230V/50Hz or 115V/60Hz (nominal values) which
can be internally selected with a switch. The T808-10-0000 is designed to power T800
Series II 100W transmitters (plus receivers, etc.) and requires a T800-44-0000 guide to fit
into a T800 Series II rack frame.
Refer to the T800 Ancillary Equipment Service Manual for more information.
Copyright TEL
01/07/00
H8
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T800 Ancillary Equipment
M830P-00
Copyright TEL

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