Thomson Broadcast and Multimedia 8BUSD5000C 50 Watt Digital Transmitter System User Manual 10 0046 SD5000C

Download:
Mirror Download [FCC.gov]
Document ID	86923
Application ID	myn/pkokgIQLG72EI6/t0Q==
Document Description	Users Guide
Short Term Confidential	No
Permanent Confidential	No
Supercede	No
Document Type	User Manual
Display Format	Adobe Acrobat PDF - pdf
Filesize	147.98kB (1849765 bits)
Date Submitted	2000-02-16 00:00:00
Date Available	2000-03-13 00:00:00
Creation Date	2000-02-16 11:31:32
Producing Software	Acrobat PDFWriter 4.0 for Windows NT
Document Lastmod	2000-02-16 13:22:59
Document Title	10-0046 SD5000C.PDF
Document Creator	Microsoft Word - 10-0046 SD5000C
Document Author:	KSimeone

SD5000C Manual
COMWAVE DIVISION
USER’S GUIDE
47266172.00-108
SD5000C Single Channel, 50 Watt Transmitter
COMWAVE DIVISION
Figure 1: SD5000C Transmitting System.
All information contained in this document is confidential and proprietary to THOMCAST and shall not be disclosed without the prior written permission of THOMCAST.
CREATED: KAS ................................................................2/9/00
CHECKED: DMW............................................................. 2/9/00
Document #: DOC10-0046
RELEASED: DMW ........................................................... 2/9/00
REV: FEB.09.00
Warranty Information
COMWAVE DIVISION
THOMCAST COMMUNICATIONS, COMWAVE DIVISION TWO YEAR
LIMITED WARRANTY
Thomcast warrants each product of its manufacture to be free from any defect in material and workmanship for a
period of two years after delivery to, and return by the original purchaser. No returns, however, will be accepted
unless accompanied by a written factory return authorization.
The limit of liability under this warranty shall be to repair or replace any product, or part thereof, which proves to be
defective after inspection by Thomcast with the exception of tubes, semiconductor devices, lamps, fuses or
equipment (i.e. modulators) manufactured by others, which are subject to only such loss adjustment as Thomcast
may obtain for the suppliers thereof.
This warranty shall not apply to any Thomcast product which has been modified, physically or electrically damaged,
or to modules which seals have been broken, or any product which has been subjected to conditions exceeding the
applicable specifications or ratings or improper service techniques.
Thomcast will not be liable for any direct or consequential injury, loss or damage incurred through the use, or the
inability to use, any Thomcast product.
Thomcast reserves the right to make design changes to any Thomcast product without incurring any obligation to
make the same changes to previously purchased units.
This warranty is the full extent of the obligation and liability assumed by Thomcast with respect to any and all
Thomcast products. Thomcast neither makes, nor authorizes any person to make, any other guarantee or warranty
concerning Thomcast products.
All information contained in this document is confidential and proprietary to THOMCAST and shall not be disclosed without the prior written permission of THOMCAST.
Document #: DOC12-0001
REV: DEC.02.99
SD5000C Transmitting System Manual Table of Contents
COMWAVE DIVISION
TABLE OF CONTENTS
TITLE
DOCUMENT #
Cover Sheet ............................................................................................................DOC10-0046
Warranty Information.............................................................................................DOC12-0001
SECTION 1
Provides information describing the system and how it works
Top Level Description............................................................................................DOC13-0178
Specifications .........................................................................................................47266172.00-306
SECTION 2
Provides information to assist in setting up and turning on your system
Installation Procedure.............................................................................................DOC17-0035
Cabling ...................................................................................................................DOC17-0036
External Interconnections.......................................................................................DOC30-0043
ComView Status Monitoring Interconnections ......................................................DOC30-0005
Turn-On Procedure.................................................................................................DOC26-0050
SECTION 3
Provides information to help with troubleshooting
Troubleshooting......................................................................................................DOC18-0073
Node Addresses ......................................................................................................DOC22-0019
Troubleshooting Worksheet ...................................................................................DOC18-0072
Equipment Fusing and Protection...........................................................................DOC18-0075
Power Supply Plug-In Fusing and Protection.........................................................DOC18-0071
Maintenance ...........................................................................................................DOC18-0074
Inspections and Cleaning
Calibrations ............................................................................................................DOC16-0057
SECTION 4
Provides information about individual segments of the system.
We recommend you contact Thomcast customer service when repairs are necessary; please do not attempt
to repair any modules and/or boards by yourself.
Sub-Chassis Theory of Operation...........................................................................DOC14-0037
Microcontroller Board Description (hardware) ......................................................DOC13-0175
Upconverter Plug-In Module Theory of Operation ................................................DOC14-0039
Front and Rear Panel Descriptions
Specifications .........................................................................................................47266116.00-306
Block Diagram........................................................................................................47266116.00-034
Internal Interconnect...............................................................................................47266116.00-050
U/C Plug-In Module MCU State Machine, Firmware Description ........................DOC13-0187
U/C Plug-In Module Firmware Description ...........................................................DOC13-0188
DOC20-0001 provides detailed contact information. International phone 001-570-474-6751, USA & Canada phone 1-800-266-9283.
All information contained in this document is confidential and proprietary to THOMCAST and shall not be disclosed without the prior written permission of THOMCAST.
CREATED: KAS................................................................ 1/21/00
CHECKED: DMW .............................................................2/16/00
Document #: DOC11-0046
RELEASED: PRC..............................................................2/16/00
REV: FEB.16.00
SD5000C Transmitting System Manual Table of Contents
COMWAVE DIVISION
LO Plug-In Module Theory of Operation...............................................................DOC14-0038
Front and Rear Panel Descriptions
Specifications .........................................................................................................47266052.00-306
Block Diagram........................................................................................................47266183.00-034
Internal Interconnect...............................................................................................47266183.00-050
LO Plug-In Firmware Description..........................................................................DOC13-0184
Power Supply Plug-In Module Theory of Operation..............................................DOC14-0036
Front and Rear Panel Descriptions
Specifications .........................................................................................................47266099.00-306
Block Diagram........................................................................................................47266099.00-034
Internal Interconnect...............................................................................................47266099.00-050
Power Supply Plug-In Embedded Controller .........................................................DOC13-0173
System Controller Firmware ..................................................................................DOC13-0185
Power Amplifier Segment Theory of Operation.....................................................DOC14-0008
Amplifier Segment State Flow Diagram ................................................................DOC21-0006
Firmware Flowchart ...............................................................................................DOC21-0005
Internal Interconnect...............................................................................................66-306-01
SECTION 5
Provides contact & return information, as well available options.
Customer Service....................................................................................................DOC20-0001
Power Amp Segment Return Packaging.................................................................DOC20-0002
All information contained in this document is confidential and proprietary to THOMCAST and shall not be disclosed without the prior written permission of THOMCAST.
CREATED: KAS................................................................ 1/21/00
CHECKED: DMW .............................................................2/16/00
Document #: DOC11-0046
RELEASED: PRC..............................................................2/16/00
REV: FEB.16.00
SDxxxxC Transmitter Series Top Level Description
COMWAVE DIVISION
TOP LEVEL DESCRIPTION
The high power single channel (HPSC) transmission system generates a digitally modulated average power signal
on all MDS, MMDS, and ITFS channels. The SD2500C generates 2-25 watts average power while the SD5000C
generates 5-50 watts average power1. The system architecture is based on advanced transistor technology, low loss
power combining, and distributed control and power conversion. Some unique advantages of this new design are
flexibility/scalability, lower downtime, and lower operating costs. The modular structure of this system allows for
quick and easy replacement of malfunctioning plug-in modules, which means less downtime and convenient
scalability. The high efficiency design and small size decreases operating expenses.
The transmitting system consists of a sub-chassis, upconverter plug-in module, LO plug-in module, power supply
plug-in module, a front-end power supply, and power amplifier segments. Digital transmission techniques provide
superior performance over analog methods, with reduced susceptibility to noise and co-channel interference.
Advanced quadrature amplitude modulation provides exceptional throughput and spectral efficiency. The RF signal
path of the system is shown below in Figure 1 and the system AC/DC power distribution is depicted in Figure 3.
This upgradeable series of transmitters provides maximum space efficiency and a modular system architecture. This
allows the transmitter to be easily upgraded from 2 watts, using from one to four power amplifier segments at 12.5
watts each, to a total of 25 or 50 watts average output power, depending on model. Similarly, it may also be
downgraded; and, the power amplifier segments may be used elsewhere or kept as spares for hot replacement. As
the output power is modified, the model name and FCC identifier will change respectively. The FCC ID label will
be replaced with each upgrade, as needed; refer to Figure 2 for label location.
One of the most prevalent user benefits of this series of transmitters is hot replacement, i.e. should a power amplifier
segment be operating below parameters and need replaced, hot replacement allows the transmitter to continue
operating with only slight power loss and little to no change in the noise floor. Similarly, should a plug-in module
need replaced only a brief interruption will occur when it is removed and transmission will continue as soon as the
replacement is plugged-in.
For modulation scheme other than QAM the ouptut power may need to be derated to keep the spectral occupancy according the FCC rules.
All information contained in this document is confidential and proprietary to THOMCAST and shall not be disclosed without the prior written permission of THOMCAST.
CREATED: KAS ................................................................1/30/00
CHECKED: PRC ............................................................... 1/31/00
Document #: DOC13-0178
RELEASED: PRC ............................................................. 2/10/00
REV: FEB.01.00
SDxxxxC Transmitter Series Top Level Description
COMWAVE DIVISION
LO
UPCONVERTER
MODULE
POWER
AMPLIFIER
SEGMENTS
[1 TO 4]
COMBINER
OUTPUT
COUPLER
SPLITTER
Figure 1: System RF signal path.
All information contained in this document is confidential and proprietary to THOMCAST and shall not be disclosed without the prior written permission of THOMCAST.
CREATED: KAS ................................................................1/30/00
CHECKED: PRC ............................................................... 1/31/00
Document #: DOC13-0178
RELEASED: PRC ............................................................. 2/10/00
REV: FEB.01.00
SDxxxxC Transmitter Series Top Level Description
COMWAVE DIVISION
FCC ID: CHP8BUSD5000C
MODEL SD5000C
5-50 WATTS AVG POWER TRANSMITTER
FCC ID: CHP8BUSD2500C
FCC ID: CHP8BUSD5000C
MODEL SD2500C
MODEL SD5000C
2-25 WATTS AVG POWER TRANSMITTER
5-50 WATTS AVG POWER TRANSMITTER
Figure 2: Location of FCC ID label.
FAN
PS
LO
UP
CONVERTER
FRONT END
POWER SUPPLY, 48 VDC
VAC
AC POWER
SECONDARY
POWER SUPPLY, 10 VDC
DC POWER
Figure 3: AC and DC power distribution.
All information contained in this document is confidential and proprietary to THOMCAST and shall not be disclosed without the prior written permission of THOMCAST.
CREATED: KAS ................................................................1/30/00
CHECKED: PRC ............................................................... 1/31/00
Document #: DOC13-0178
RELEASED: PRC ............................................................. 2/10/00
REV: FEB.01.00
SD5000C Transmitting System Specifications – 47266172.00
COMWAVE DIVISION
SD5000C TRANSMITTING SYSTEM SPECIFICATIONS
Parameter
Specification
DIGITAL
Notes / Test Conditions
Average Output Power
IF Input Frequency
Impedance/Connector
Input
Output
Average Input Power
Output Frequency
5 - 50 Watts
44 MHz
223-1 PN data sequence (at transmitter output)
Other frequency options available
75 Ω/BNC-female
50 Ω/N-female
-15 dBm ± 0.5 dB
1850 - 3600 MHz
223-1 PN data sequence (at transmitter output)
In select bands
Frequency Response1
≤ ±0.25 dB
Frequency Stability
Carrier to Noise (C/N)
Hum and Noise
≤ ±500 Hz
≤ ±1 Hz (Optional GPS)
≥ 55 dB
≤ -60 dBc
Group Delay2
≤ ±15 ns
Digital Modulation
Error Vector Magnitude 2, 2 (EVM)
≤ 2.0%
Digital Modulation
Signal to Noise Ratio 2,3 (SNR)
≥ 30 dB
Magnitude Linearity
(AM-AM conversion)
Phase Linearity
(AM-PM conversion)
Adjacent Channel Interference3, 4
(FCC ATV Spectral Mask)
≤ ±0.125 dB
FC ±2.6 MHz
Measured at channel combiner output
64-QAM/8-VSB @ 5.06 Msps RMS average
over 12,500 symbols
Measured at channel combiner output
64-QAM/8-VSB @ 5.06 Msps RMS average
over 12,500 symbols
Measured at channel combiner output
Measured at channel combiner output
≤ ±0.75°
Measured at channel combiner output
Relative to in-band average PSD measured @
100 KHz RBW at the channel combiner output
Harmonics5
Sidelobe power spectral density (PSD)
≤ -38 dB at channel edge; decreasing to
≤ -60dB at ±3 MHz from channel edge
≤ -60 dBc
Spurious Products6
≤ -60 dBc
RF Output Regulation
SSB Phase Noise
≤ ± .2 dB
= -85 dBc/Hz @ 10 KHz offset
= -110 dBc/Hz @ 10 KHz offset
Direct measurement of microwave LO
FC ±2.6 MHz
Measured at channel combiner output
Relative to unmodulated carrier power
measured @ 100 KHz RBW at the channel
combiner output
Relative to unmodulated carrier power
measured @ 100 KHz RBW at the channel
combiner output
Measured at transmitter output
Optional
Standard (recommended for digital
transmission)
Upconverter amplifier drawer with optional group delay and frequency equalizer @ the output of the non-adjacent channel combiner.
Or equivalent threshold BER measurement.
Spectral occupancy per FCC ruling for both analog and digital
Measured with a non-adjacent channel combiner, notch filter and optional IF equalizer module.
Undesired signal power 2 dB higher than the nominal PSD of the adjacent spectral regions that is harmonically related to unmodulated carrier
Undesired signal power 2 dB higher than the nominal PSD of the adjacent spectral regions that is harmonically related to internal system
signals such as clock, LOs, etc.
All information contained in this document is confidential and proprietary to THOMCAST and shall not be disclosed without the prior written permission of THOMCAST.
CREATED: DMW..............................................................3/19/99
CHECKED: KAS ............................................................... 2/7/00
SPECIFICATIONS SUBJECT TO CHANGE WITHOUT NOTICE
RELEASED: AAC ............................................................. 2/8/00
Document #: 47266172.00-306
REV: P1
SD5000C Transmitting System Specifications – 47266172.00
COMWAVE DIVISION
Parameter
Output Power
Specification
ANALOG
VISUAL PERFORMANCE
15 - 150 Watts Peak Sync
Output Frequency
Any 6, 7, or 8 MHz Channel
Emission
Impedance/Connector
Input
Output
Input Level
IF Input Level
Impedance/Connector
Frequency Stability
5M75C3F or per CCIR
Frequency Response7, 8, 9
Group Delay 8, 10
Harmonics
75Ω/F female
50Ω/N female
Video 1 VP-P ± 6dB
-8 dBm peak ± 2 dB
75O / female BNC
= ± 500 Hz
= ± 1 Hz (Optional GPS)
= ± 1 dB
Per FCC 73.687(a)(3) or per CCIR
= -60 dBc
Spurious Products8
= -60 dBc (out of band)
Intermodulation Distortion (IM3)10
= -60 dBc (in band)
Differential Gain8, 10
Differential Phase8, 10
Sync Pulse Amplitude8, 10
Luminance Non-linearity8, 10
Weighted SNR8, 10
Hum and Noise8, 10
K Factor 2T8, 10
Incidental Carrier Phase8, 10
Modulation (I.C.P.M.)
RF Output Regulation
SSB Phase Noise
= 3%
= 2°
= ±5%
= 3%
= 55 dB
= 60 dB
= 2%
= 3°
Direct measurement of microwave LO
Notes / Test Conditions
Adjustable from 10 to 100% of peak sync
power
1850-3600 MHz
In select bands
FCC Multiburst video pattern
Sin(x)/x video pattern
Measured in 30 KHz RBW at transmitter
output relative to visual carrier (unmodulated
carriers)
Measured in 30 KHz RBW at transmitter
output relative to visual carrier using 75% color
bars video pattern
Measured in 100 KHz RBW at transmitter
output relative to visual carrier using red field
video pattern
NTC-7 composite video pattern
NTC-7 composite video pattern
NTC-7 composite video pattern
NTC-7 composite video pattern
Quiet Line - Line 12
NTC-7 composite video pattern
NTC-7 composite video pattern
= ± 0.2 dB
= -85 dBc/Hz @ 10 KHz offset
= -110 dBc/Hz @ 10 KHz offset
Standard
Optional (recommended for digital
transmission)
Using TVM-102 modulator.
Spectral occupancy per FCC ruling for both analog and digital
Factory video/audio performance test limits may include up to 50% of the test demodulator measurement uncertainty.
10
In band intermodulation specification is based on 15 dB visual to aural ratio. Contact factory for specification change due to other ratios
All information contained in this document is confidential and proprietary to THOMCAST and shall not be disclosed without the prior written permission of THOMCAST.
CREATED: DMW..............................................................3/19/99
CHECKED: KAS ............................................................... 2/7/00
SPECIFICATIONS SUBJECT TO CHANGE WITHOUT NOTICE
RELEASED: AAC ............................................................. 2/8/00
Document #: 47266172.00-306
REV: P1
SD5000C Transmitting System Specifications – 47266172.00
COMWAVE DIVISION
Parameter
Output Power11
IF Input Level
Impedance/Connector
Emission
Inter Carrier Frequency Accuracy
Frequency Response12, 13
Mono
Stereo
Pre-emphasis
Deviation
Harmonic Distortion13, 14
FM Noise13, 14
Audio Input Level13
Mono @ ±25 KHz deviation
Mono @ ±50 KHz deviation
Stereo @ ±50 KHz deviation
Specification
AURAL PERFORMANCE
15 dB visual/aural ratio
+0.5 dB to -2 dB
-23 dBm peak ± 2 dB
75O / female BNC
250KF3E or per CCIR
= ± 50 Hz relative to visual carrier
Notes / Test Conditions
Measured at transmitter output
Other ratios available upon request
Combined visual and aural
= ± 1 dB 30 Hz to 15 KHz
= ± 1 dB 50 Hz to 105 KHz w/o preemphasis
50 or 75 microseconds (defeatable)
±25 KHz (System M/N) (±50 KHz Stereo)
±50 KHz (System B/G/D/K/I) NICAM
and IRT Stereo compatible
= 1%
= -60 dB
Power Requirement
Operating Temperature
-10 to +10 dBm into 600Ω
-10 to +10 dBm into 600Ω
-10 to +10 dBm
GENERAL
230 VAC ±10%; 50/60 Hz; =150014 VA
0°C to +50°C
Specified Temperature Range
Relative Humidity
Vertical Rack Requirement
Dimensions
13° to +33°C
95% non-condensing
10.5”
10.5” H x 19” W x 29” D
Approximate Shipping Weight
26.67cm H x 48.26 cm W x 73.66 cm D
96 lb (43.5 kg)
Frequency stability and equipment
functionality guaranteed
All Specified parameters guaranteed
Does not include modulator
Fully loaded
TO VIEW SPECIFICATIONS OF INDIVIDUAL SEGMENTS OF THIS SYSTEM CLICK BELOW:
SUB-CHASSIS
POWER SUPPLY PLUG-IN MODULE
UPCONVERTER PLUG-IN MODULE
LO PLUG-IN MODULE
11
In band intermodulation specification is based on 15 dB visual to aural ratio. Contact factory for specification change due to other ratios
Using TVM-102 modulator
13
Factory video/audio performance test limits may include up to 50% of the test demodulator measurement uncertainty.
14
Switching power supply is power factor corrected.
12
All information contained in this document is confidential and proprietary to THOMCAST and shall not be disclosed without the prior written permission of THOMCAST.
CREATED: DMW..............................................................3/19/99
CHECKED: KAS ............................................................... 2/7/00
SPECIFICATIONS SUBJECT TO CHANGE WITHOUT NOTICE
RELEASED: AAC ............................................................. 2/8/00
Document #: 47266172.00-306
REV: P1
SDxxxxC Series of Transmitters Installation Procedure
COMWAVE DIVISION
INSTALLATION
UNPACKING INFORMATION
While unpacking, carefully compare packing list with the equipment, checking for in-transit damage at the same time.
Should any damage be noted, notify the freight carrier at once to file a freight claim. Do not discard any packing material
until told to do so by the carrier. Also, notify Thomcast Communications Inc., Comwave Division of any damages or of
missing materials from the shipment.
Retain original boxes and internal packing materials to adequately protect equipment to be returned to
the factory for repairs, upgrades, or modifications.
ENVIRONMENTAL CONSIDERATIONS
The equipment can be safely operated in ambient temperatures of -30 to +50 degrees Celsius (-22 to +122 degrees
Fahrenheit). However, moderate temperatures generally extend equipment life. Although the equipment may be operated
with relative humidity of up to 95%, the equipment must be protected from conditions, which cause condensation within the
equipment.
If a rear door is used to secure the rack cabinet, forced ventilation through the cabinet is required (600 cfm minimum per
transmitter is recommended). An air or temperature interlock should be incorporated for protection against interruption of
ventilation. The area should be kept dry and clean.
There should be sufficient space in front of the transmitter cabinet for the serviceman and test equipment. A minimum of
36” behind the cabinet should be free for rear cabinet access and air movement. Also, ample room must be available at the
cabinet rear for cable placement.
SAFETY CONSIDERATIONS
This equipment utilizes a grounding plug on all power cords. For personal safety, do not defeat
this safety feature. As with all similar types of equipment, high voltage can be accessed when
the chassis cover is removed. Special care should be given in areas of fuses, line switches, and
power supplies.
Modern high power solid state equipment contains low output voltage power supplies with very high current capability. To
prevent severe burns, avoid contact of rings, watches etc., with these circuits. When servicing the transmission line and
antenna, care must be taken to avoid exposure to high-energy microwave.
PHYSICAL INSTALLATION
Mount the sub-chassis into the rack with the provided front panel screws; be sure to properly align the rear support. Slide
each plug-in module into its location until it’s fully seated. Once plug-in is place, tighten the front panel thumb screws to
assure that the plug-in remains securely in place and provide proper grounding. After all plug-ins are in securely in place,
connect the LO output connector of the LO plug-in to the LO input connector of the upconverter plug-in via the SMA cable
packed with the LO plug-in module.
The transmitter requires 10.5 inches of vertical rack space (not including a modulator). Generally, all equipment is mounted
in close proximity in the same rack for the convenience of cabling.
All information contained in this document is confidential and proprietary to THOMCAST and shall not be disclosed without the prior written permission of THOMCAST.
CREATED: KAS ................................................................2/10/00
CHECKED: DMW............................................................. 2/10/00
Document #: DOC17-0035
RELEASED: PRC ............................................................. 2/10/00
REV: FEB.10.00
SDxxxxC Series of Transmitters Installation Procedure
COMWAVE DIVISION
INSTALLATION OF THE POWER AMPLIFIER SEGMENTS
The power amplifier segments slide into the sub-chassis on nylon slides and connect to the motherboard via floating
connectors. The key-lock switch, located on the segment’s front panel, must be in the OFF position in order to plug the
segment in. This is to ensure that there is no arcing between connections before the segment is fully engaged. Once the
segment is slid into place, thumbscrews on the segment’s front panel are provided to secure it to the sub-chassis and to
provide ground connection. The key-lock switch may now be turned to the ON position to apply power to the segment.
Once the key-lock switch is turned on, the segment will automatically set the gain and currents of the amplifier.
SYSTEM GROUNDING
For proper system operation, it is imperative that the system be adequately grounded. Each individual equipment rack
requires grounding to the main building ground. When bolting ground wires to racks, sand finish to remove paint ensuring a
good bond.
All information contained in this document is confidential and proprietary to THOMCAST and shall not be disclosed without the prior written permission of THOMCAST.
CREATED: KAS ................................................................2/10/00
CHECKED: DMW............................................................. 2/10/00
Document #: DOC17-0035
RELEASED: PRC ............................................................. 2/10/00
REV: FEB.10.00
SDxxxxC Series Cabling
COMWAVE DIVISION
SDxxxxC SERIES CABLING
This section explains cabling and interconnects for this series of transmitters. Refer to document # DOC30-0043 for
pictorial.
SUB-CHASSIS REAR PANEL (TRANSMITTER):
♦
IF INPUT:
An input signal is required for operation. Connect the IF INPUT of the transmitter to the IF OUTPUT of
the modulator or other source. Use RG59/U 75 O cable.
♦
RF OUT:
Cable the RF OUTPUT signal from the transmitter to the spectral shaping assembly, channel combiner, or
notch filter. In an agile transmitter the RF OUTPUT is cabled to the spectral shaping assembly or the
broadband input of the channel combiner network. Use ½-inch super flex cable.
♦
FREQ REF IN:
An externally applied frequency reference signal is an option. This signal can originate from an optional
reference drawer or from another transmitter that contains an internal reference oscillator, which can drive
up to three additional transmitters. Use RG59/U 75 O cable.
FRONT PANELS:
Connect the LO output of the LO plug-in
module to the LO input of the upconverter
/ amplifier plug-in module.
Figure 1: Cabling the LO signal.
COMVIEW INTERCONNECTIONS
ComView interconnections are achieved through six-conductor telephone cables with RJ-11 connectors at each end.
The first cabling harness exits the PC and enters the ComView port on the rear of the transmitter, refer to DOC300043 for connector location.
In systems with multiple transmitters another harness is cabled from the net output of the first transmitter to the net
input of the second transmitter. This daisy chain effect continues to the last transmitter in the rack. At the last
transmitter in the rack the termination switch is put in the “term” position. Refer to the system interconnect
diagram, document # DOC30-0005, for more detail on daisy chain cabling.
All information contained in this document is confidential and proprietary to THOMCAST and shall not be disclosed without the prior written permission of THOMCAST.
CREATED: KAS ................................................................2/10/00
CHECKED: DMW............................................................. 2/14/00
Document #: DOC17-0036
RELEASED: PRC ............................................................. 2/14/00
REV: FEB.10.00
External Interconnections for the SDxxxxC Series
COMWAVE DIVISION
EXTERNAL INTERCONNECTIONS, SDxxxxC Series
RF Output
Termination Switch
Super-flex cable
In from ComViewa
Out to ComViewa
SUB-CHASSIS REAR PANEL
Local RS-485
communication
IF Input Signal
Freq Ref In
OPTIONAL Agile
Controller
NOTES: a) These are interchangeable.
All information contained in this document is confidential and proprietary to THOMCAST and shall not be disclosed without the prior written permission of THOMCAST.
CREATED: KAS
2/10/00
CHECKED: DMW
2/14/00
Document #: DOC30-0043
RELEASED: PRC
REV: FEB.10.00
2/14/00
ComView Status Monitoring Interconnections
COMWAVE DIVISION
COMVIEW STATUS MONITORING INTERCONNECTIONS
NETWORK END
TERMINATION
NET
NETWORK END
TERMINATION
NET
NET
NETWORK END
TERMINATION
NET
TERM
TERM
TERM
OUT
OUT
OUT
NET
NET
TO FINAL
DRAWER IN THE
SERIES
LAST DRAWER IN
SERIES
COMWAVE
STATUS
MONITORING
SYSTEM
NETWORK END
TERMINATION
NET
NET
TERM
OUT
NOTE: Position
switch to TERM for last
drawer in the series
All information contained in this document is confidential and proprietary to THOMCAST and shall not be disclosed without the prior written permission of THOMCAST.
CREATED: KAS
1/18/99
CHECKED: DMW
1/18/99
Document #: DOC30-0005
RELEASED: PRC
1/18/99
REV: NOV.11.99 ECO #: 98-116
Turn-On Procedure for the SDxxxxC Series of Transmitters
COMWAVE DIVISION
TURN-ON PROCEDURE
INITIAL TURN-ON PROCEDURE
1.
2.
3.
4.
5.
Plug the AC line in.
Ensure all external interconnections are appropriately connected.
Turn the power switch on the rear of the transmitter to the “ON” position.
All modules perform an automatic start up program.
♦
Upconverter Plug-in Module
A lamp test operation is performed. All chassis front panel LED’s are illuminated for approximately 1
second then darkened. The lamp test allows a quick verification that all front panel LED’s are functioning.
In addition, the lamp test is a clear outward sign that the MCU board is receiving power, is executing the
firmware program, and has recovered from RESET. Shortly after the lamp test, the LED’s will display
chassis status as determined by firmware tests. Document # DOC13-0188 discusses the firmware in more
detail.
♦
LO Plug-in Module
When the LO module is turned on, the code executes an initialization process. This process provides a
lamp test, and displays the channel number on the front panel eight-segment LED display. An internal
reference is adjusted to operational frequency, and the synthesizer chip is programmed with the
operational frequency that was previously set into the microprocessor’s non-volatile memory.
Additionally, the working arrays and structures of the application are set into RAM. After the initialization
program completes, the code enters a simple state machine to judge and operate the LO module.
Document # DOC13-0184 discusses the firmware in more detail.
♦
Power Supply Plug-in Module
When power is initially supplied to the power supply module a lamp test is performed. The two front
panel LED’s will flash on then off, after which the LED’s remain lit, verifying operation.
Once the start up program is complete the equipment is functional.
NORMAL OPERATION
The following LED’s confirm normal operation:
LO plug-in module
ë DC POWER – continuously illuminated green
ë LO Ø LOCK - unlit
Power supply plug-in module
ë POWER - continuously illuminated green
ë DC POWER - continuously illuminated green
Refer to the troubleshooting section of this manual for more information about the above LED’s.
All information contained in this document is confidential and proprietary to THOMCAST and shall not be disclosed without the prior written permission of THOMCAST.
CREATED: KAS ................................................................2/10/00
CHECKED: PRC............................................................... 2/10/00
Document #: DOC26-0050
RELEASED: DMW............................................................ 2/14/00
REV: FEB.10.00
Turn-On Procedure for the SDxxxxC Series of Transmitters
COMWAVE DIVISION
Power Amplifier Segment
Operation is accomplished by turning the key-lock switch to the “ON/LOCKED” position.
• The locks are an added safety feature; however, the keys are interchangeable.
The POWER/FAULT LED should continuously illuminate GREEN. If the LED flashes RED, the power amplifier
segment has faulted. After three faults, a failure will occur and the segment will shut down. Turning the key-lock
switch to the “OFF/UNLOCKED” position and then back to the “ON/LOCKED” position will reset it. Should failure
occur again, hot replacement is necessary. Turn the key-lock switch to the “OFF/UNLOCKED” position and pull the
failed segment out of the rack by the handle. Slide a new power amplifier segment into the vacant space, see the
installation procedure for assistance, set the correct node address, see DOC22-0019, and turn the key-lock switch to the
“ON/LOCKED” position.
All information contained in this document is confidential and proprietary to THOMCAST and shall not be disclosed without the prior written permission of THOMCAST.
CREATED: KAS ................................................................2/10/00
CHECKED: PRC............................................................... 2/10/00
Document #: DOC26-0050
RELEASED: DMW............................................................ 2/14/00
REV: FEB.10.00
Troubleshooting for the SDxxxxC Series of Transmitters
COMWAVE DIVISION
SDxxxxC SERIES TROUBLESHOOTING
This series of transmitters is equipped with comprehensive diagnostic circuitry that monitors the status of each plug
in module and power amplifier segments so failures can be readily detected. Observing the front panel LED
diagnostic display, and ComView interface will inform you of the complete operational status. The following lists
explain various failure mode displays and possible solutions.
A 14-pin computer type diagnostic interface connector, labeled J1, is located on the rear of the transmitter to assist
in troubleshooting. Critical power supply, module, and motherboard voltage test points can be accessed/monitored
at this location. Should a failure occur, the combination of diagnostic LED status lights, diagnostic interface voltage
test points, and ComView should help identify the failure.
• Repair of internal modules is not recommended or advised. Contact1 COMWAVE customer support should a
failure occur.
LO PLUG-IN MODULE:
The LED’s listed below continuously illuminate GREEN during normal operation. Absence of a green LED
indicates a missing signal or parameter that results in a controlled automatic shutdown
DC POWER
(No power present)
CAUSES:
Plug-in module not seated
properly
Power supply plug-in
module malfunctioning
Front end power supply
malfunctioning
CHECK FOR:
If LO plug-in module LED’s are unlit,
while the power supply plug-in LED’s
are lit
If LO AND power supply plug-in
LED’s are unlit
If the LED’s indicate a problem, refer
to Table 1
REMEDY:
Remove LO plug-in and push firmly back
in place
If no problem is indicated
Check the rear panel AC fuse
If the fuse is bad
Replace it
If the fuse is ok
Contact1 Comwave customer support
Remove the panel covering the front end
power supply and check the LED’s
Contact1 Comwave customer support for
a replacement
Table 1: Front end power supply alarm indicators & control signals.
Description
Output OK
Supply Standby
Supply Fail
Current Limit
Overvoltage
Overtemp
AC Undervoltage
Fan Fail
Signal
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
LED Indicator
Green
Amber
Red
Amber
Red
Amber (same as Fan Fail LED indicator)
NA
Amber (same as Overtemp LED indicator)
DOC20-0001 provides detailed contact information. International phone 001-570-474-6751, USA & Canada phone 1-800-266-9283.
All information contained in this document is confidential and proprietary to THOMCAST and shall not be disclosed without the prior written permission of THOMCAST.
CREATED: KAS ................................................................2/10/00
CHECKED: AAC .............................................................. 2/15/00
Document #: DOC18-0073
RELEASED: PRC .............................................................. 2/16/00
REV: FEB.16.00
Troubleshooting for the SDxxxxC Series of Transmitters
COMWAVE DIVISION
The following LED’s remain unlit until a malfunction is detected then they continuously illuminate RED. Loss of
phase lock results in controlled automatic transmitter shut down.
LO Ø LOCK
(Loss of phase lock)
CAUSES:
REMEDY:
Measure the reference level at the rear of the
transmitter
If the level is low:
Check and tighten all external cables and
harnesses associated with the LO
If the level is OK or still low after checking the
cables:
Contact2 Comwave customer support for a
replacement
Reference Level
POWER SUPPLY PLUG-IN MODULE:
The LED’s listed below continuously operate GREEN during normal operation. Absence of a green LED indicates
a missing signal or parameter that results in a controlled automatic shutdown
POWER
(No power present from the front end power supply)
CAUSES:
Blown fuse, F1, in plug-in module
No DC input from front end power supple
Failure in plug-in module
REMEDY:
Replace fuse
Check OEM power supply
Contact2 Comwave customer support for a replacement
DC POWER
(No output power)
CAUSES:
Short circuit or current overload
Failure in plug-in module
REMEDY:
Test 48 pin connector on back plane for short circuits
Find plug-in module that is causing overload by
swapping with like plug-in modules
Contact2 Comwave customer support for a replacement
The upconverter / amplifier plug-in module LCD display provides operating information about each plug-in module,
i.e. ‘PASS’ / ‘FAIL’, as well as a series of measurements, and user adjustments.
To view the status of each plug-in module perform the following steps:
1.
Use the keypad on the upconverter / amplifier plug-in, choose select, when Status is displayed in LCD
hit enter.
2.
At this point you will be able to “select” the plug-in module of your choice.
3.
When you’ve chosen the appropriate module the LCD will display either ‘PASS’ or ‘FAIL’.
4.
If it indicates the plug-in has failed, contact2 Comwave for a replacement plug-in, there are no user
troubleshooting steps for the plug-in modules.
DOC20-0001 provides detailed contact information. International phone 001-570-474-6751, USA & Canada phone 1-800-266-9283.
All information contained in this document is confidential and proprietary to THOMCAST and shall not be disclosed without the prior written permission of THOMCAST.
CREATED: KAS ................................................................2/10/00
CHECKED: AAC .............................................................. 2/15/00
Document #: DOC18-0073
RELEASED: PRC .............................................................. 2/16/00
REV: FEB.16.00
Troubleshooting for the SDxxxxC Series of Transmitters
COMWAVE DIVISION
If the Reflected Power measurement is high, check the following:
1. Output cable
2.
Output Notch Filter (present at the output of the system)
3.
Cable between Notch Filter and Channel Combiner (if present at the output of the system)
4.
Connections to the antenna
If after ensuring the above are properly connected the problem persists, contact3 Comwave customer support.
If the Forward Power measurement is low, check the following:
1.
2.
3.
4.
5.
Check the power amplifier segment LED’s; they should be green.
Check the status of each of the plug-in module via the keypad on the upconverter / amplifier plug-in front panel,
see above for steps. They should all present a PASS condition.
If no amplifier segment or plug-in modules indicate a FAIL condition, use the keypad and LCD to display the
IN-SIGNAL condition.
If the IN-SIGNAL status indicates a NO IN-SIGNAL condition, check the signal source.
If any power amplifiers segments and / or plug-ins have a FAIL condition, contact Comwave customer support
to report the failure and receive a replacement.
POWER AMPLIFIER SEGMENT
Hot replacement of the power amplifier segment may be required if a failure occurs. To remove a segment, turn the
key-lock switch to the OFF position, loosen the thumbscrews on the segment’s front panel and slide the failed
segment out of the sub-rack. Before the replacement segment can be installed, the node address must be set, refer to
document # DOC22-0019. A set of DIP switches is accessible through the cover of each segment directly behind
the key-lock switch. Set the DIP switches of the replacement segment to the same positions as the failed segment’s
DIP switches. Refer to the installation procedure for assistance when replacing power amplifier segments.
DOC20-0001 provides detailed contact information. International phone 001-570-474-6751, USA & Canada phone 1-800-266-9283.
All information contained in this document is confidential and proprietary to THOMCAST and shall not be disclosed without the prior written permission of THOMCAST.
CREATED: KAS ................................................................2/10/00
CHECKED: AAC .............................................................. 2/15/00
Document #: DOC18-0073
RELEASED: PRC .............................................................. 2/16/00
REV: FEB.16.00
Power Amplifier Segment Node Addresses
COMWAVE DIVISION
NODE ADDRESSES
1 to 16 Channels
MODULE POSITION
NODE ADDRESS
NODE SWITCH SETTING
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
10
ON
OFF
10
11
ON
OFF
11
12
ON
OFF
12
13
ON
OFF
13
14
ON
OFF
14
15
ON
OFF
15
16
ON
OFF
16
17
ON
OFF
NOTE: Do not change
node switch Settings 6, 7,
and 8. They should
remain as set by the
factory.
All information contained in this document is confidential and proprietary to THOMCAST and shall not be disclosed without the prior written permission of THOMCAST.
CREATED: KAS
9/16/98
CHECKED: DMW
10/20/98
Document #: DOC22-0019
RELEASED: PRC
10/20/98
REV: DEC.01.99 ECO #: 98-116
SDxxxC Series Transmitter Troubleshooting Worksheet
– 47266066 Rear Panel Interface
COMWAVE DIVISION
TROUBLESHOOTING WORKSHEET
This troubleshooting worksheet identifies each interface pin, the associated internal test point, nominal value, and
the expected voltage range. Please fill in all blank spaces completely
J1: Rear Panel
Diagnostic Pin
10
11
12
13
14
Function Checked
Measured Voltage
Ground
LO / Front-End Fault
PS Fault
Upconv Fault
Sys Pwr
REFL Pwr
+48V Fault Input
+10V Fault Input
P.A.S. Reset
P.A.S. Standby
Amp Seg Fault
+12V Output
Insignal for Booster
Ground
FILL IN ALL THE ABOVE BLANK SPACES COMPLETELY
COMPANY NAME: ________________________ CUSTOMER’S NAME: ________________________
PHONE NUMBER: ________________________ FAX NUMBER:
________________________
MODEL: __________ CHANNEL: ____________ SERIAL NUMBER (REAR PANEL): _____________
SEND RESULTS TO:
TOLL FREE PHONE (U.S.A. & Canada):
International and U.S.A.
FAX
THOMCAST COMMUNICATIONS, COMWAVE DIVISION
ATTENTION TECHNICAL SUPPORT
1-800-COMWAVE (1-800-266-9283)
1-570-474-67511
1-570-474-5469
International calls must dial the country code before the phone number, i.e. 001-570-474-6751.
All information contained in this document is confidential and proprietary to THOMCAST and shall not be disclosed without the prior written permission of THOMCAST.
CREATED: AB ..................................................................2/4/00
CHECKED: KAS ............................................................... 2/9/00
Document #: DOC18-0072
RELEASED: PRC ............................................................. 2/11/00
REV: FEB.09.00
SDxxxxC Series Transmitter Fusing & Protection
COMWAVE DIVISION
SDxxxxC SERIES TRANSMITTER FUSING AND PROTECTION
Resettable and replaceable fuses are found in this system. Refer to the tables below for fuse locations and values.
Table 1: Transmitter fuse locations.
LOCATION
Rear Panel Interface Board - 47266066
Rear Panel AC
REFERENCE
F1
Input
VALUE
.5 ampere resettable
8 amperes @ 230 VAC
Table 2: Power amplifier segment fuse locations.
LOCATION
Microcontroller board
Microcontroller board
Microcontroller board
DC - DC converter board
REFERENCE
F1, F2
F3
F4
F1
VALUE
.75 amperes resettable
.30 amperes resettable
.35 amperes resettable
10 amperes
Thermal Protection: Thermal protection is accomplished using temperature sensors within individual plug-in
modules. The LO module does not have a temperature sensor. When the temperature exceeds 140° Fahrenheit (60°
Celsius), the sensors inform the microcontroller which then takes the appropriate action, until the unit is sufficiently
cooled.
Interlocks: Interlocks are performed via software applications, see individual plug-in modules firmware description
for more information.
The OEM front end power supply offers the following:
Table 3: Front end power supply alarm indicators & control signals.
Description
Output OK
Supply Standby
Supply Fail
Current Limit
Overvoltage
Overtemp
AC Undervoltage
Fan Fail
Signal
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
LED Indicator
Green
Amber
Red
Amber
Red
Amber (same as Fan Fail LED indicator)
NA
Amber (same as Overtemp LED indicator)
Replace only with the same type and rating.
All information contained in this document is confidential and proprietary to THOMCAST and shall not be disclosed without the prior written permission of THOMCAST.
CREATED: KAS ................................................................2/10/00
CHECKED: DMW............................................................. 2/14/00
Document #: DOC18-0075
RELEASED: PRC ............................................................. 2/16/00
REV: FEB.16.00
Power Supply Plug-In - Fusing and Protection
COMWAVE DIVISION
POWER SUPPLY PLUG-IN FUSING AND PROTECTION
This module contains one replaceable fuse , refer to the table below for fuse location and value.
Table 1: Transmitter fuse locations.
LOCATION
DC converter board
REFERENCE
F1
VALUE
6 amperes @ 117/230 VAC
CURRENT AND VOLTAGE MONITORING
Current sampling is accomplished by measuring the voltage drop across a resistor in series of the load. The voltages
from both sides of the resistor are scaled down in order to keep the measured voltages from the supply voltages of
the operational amplifiers. The voltage differences are first buffered, and then applied to an operational amplifier
configured to measure the difference of the two input voltages.
The output of the differential amplifier is then applied to a non-inverting amplifier to increase the voltage near the
middle of the system controller’s 5 volt analog to digital converter’s range. An integrated circuit containing Zener
and Shottkey diodes protect the inputs of the system controller. The system controller compares this value against
previously calibrated values to determine if the power supply is operating outside of specified parameters.
The input buffers for the current sampling also provide the voltage samples; the buffer’s output is scaled down by
dividing resistors. This provides a sample voltage to the analog to digital converters that is mid-rage between zero
and five volts.
All of the power supply sections operate in a similar manner. The –12 VDC power supply section uses inverting
amplifiers (instead of buffers) with unity gain to convert the sample values to positive representations of the sampled
voltages.
The current and voltage sample outputs are applied to an analog multiplexer integrated circuit. This chip selects the
group of signals that are applied to the microprocessor from a control provided from the microprocessor.
TEMPERATURE SENSING
Temperature sensing is accomplished by a thermal sensing integrated circuit. This integrated circuit outputs an
analog voltage between 0 and 5 volts that corresponds to the relative air temperature.
This analog signal is applied to the analog to digital converter built into the embedded controller. The controller
processes this value and compares it against pre-determined values to control the sequence of events needed when
an over temperature condition arises
Replace only with the same type and rating.
All information contained in this document is confidential and proprietary to THOMCAST and shall not be disclosed without the prior written permission of THOMCAST.
CREATED: CTS ................................................................1/26/00
CHECKED: KAS ............................................................... 1/27/00
Document #: DOC18-0071
RELEASED: CTS.............................................................. 2/14/00
REV: JAN.27.00
Maintenance for the SDxxxxC Series of Transmitters
COMWAVE DIVISION
MAINTENANCE
COMWAVE products have been carefully designed to be maintenance free. Only periodic inspection and cleaning
is necessary.
INSPECTIONS
1.
Periodically inspect cooling fans on the rear door of the rack and the heatsinks of the power amplifier segments
for heavy accumulations of dirt and/or insects. Heavy accumulation of foreign debris impedes cooling
effectiveness and could lead to premature failure. Should any debris be detected, shut down the transmitter and
follow the cleaning instructions to remove debris from transmitter.
• The agile transmitter will automatically recover the channel of the transmitter that is being cleaned.
2.
After performing routine maintenance, be sure to check the tightness of all cable connections and especially the
integrity of crimp type connectors.
CLEANING
POWER SUPPLY PLUG-IN MODULE:
1. Pull the plug-in out of the sub-chassis and vacuum
the heatsink.
2.
Remove the side “snap-on” cover and clean the
front panel fan.
3.
Replace the cover.
4.
Plug the segment back in.
COVER
• Be sure not to bend or damage the fins of the
HEATSINK
heatsink during cleaning.
• Keep in mind that when the plug-in module is
removed there will be an interruption in service,
which will be restored immediately upon its return to
the sub-chassis.
FAN
Figure 1: Power supply plug-in module.
All information contained in this document is confidential and proprietary to THOMCAST and shall not be disclosed without the prior written permission of THOMCAST.
CREATED: KAS ................................................................2/10/00
CHECKED: DMW ............................................................. 2/11/00
Document #: DOC18-0074
RELEASED: PRC .............................................................. 2/11/00
REV: FEB.10.00
Maintenance for the SDxxxxC Series of Transmitters
COMWAVE DIVISION
POWER AMPLIFIER SEGMENTS:
Pull each power amplifier segment one at a time from the front
of the rack and vacuum the heatsinks. Due to the hot
replacement feature, if one segment is removed at a time, the
transmitter does not need to be turned off. Plug the segment
back in after cleaning.
HEATSINK
• Be sure not to bend or damage the fins of the heatsinks
during cleaning.
Figure 2: Power amplifier segment heatsink.
FAN:
Clean the fan on the rear of the sub-chassis,
removing the fan guard if necessary.
1.
Power connection; remove the power
prior to cleaning.
2.
To remove the fan guard remove these
screws.
Figure 3: Rear panel fan.
All information contained in this document is confidential and proprietary to THOMCAST and shall not be disclosed without the prior written permission of THOMCAST.
CREATED: KAS ................................................................2/10/00
CHECKED: DMW ............................................................. 2/11/00
Document #: DOC18-0074
RELEASED: PRC .............................................................. 2/11/00
REV: FEB.10.00
Calibrations for the SDxxxxC Transmitter Series
COMWAVE DIVISION
CALIBRATIONS FOR THE SDxxxxC TRANSMITTER SERIES
This series of transmitters is designed to perform auto-calibration upon turn-on. Once this is complete if the output
power is incorrect or missing proceed as follows.
FORWARD POWER – UPCONVERTER / AMPLIFIER PLUG-IN MODULE:
1) Make connections as depicted in Figure 1 note 1.
2) Connect a PC with the application file DRIVER_PLUG_IN_CAL_&_ADJUS to the RS-232 port on the front
panel.
3) Initialize DRIVER_PLUG_IN_CAL_&_ADJUS application.
4) Through the program application, specifically in the POWER CONTROL BOX, set the POWER MODE to
MANUAL.
5) With the MANUAL POWER CONTROL sliding button, set power in order to have a reading of 20 dBm
(100mW) at the external power meter. Account for the directional coupler factor.
6) Enter the number 20 in the DRIVER FORWARD POWER SET VALUE field.
7) Press the DRIVER FORWARD POWER CALIBRATE button.
8) On the upconverter plug-in, display the Forward Power measurement by:
a) (Considering the LCD display is in its default state): SELECT (to make the STATUS option of the
STATUS / CALIBRATE screen to flash)
b) ENTER (to display PS / LO / DRIVER status screen)
c) SELECT, SELECT (to highlight the DRIVER STATUS option)
d) ENTER (to display options INSIGNAL / SYSTEM FORWARD POWER / SYSTEM REFLECTED
POWER / DRIVER FORWARD POWER under the DRIVER STATUS menu)
e) SELECT, SELECT and SELECT (to highlight the DRIVER FORWARD POWER)
f) Enter to display the measurement
9) Verify that the reading on the LCD display is consistent with the reading on the external power meter. Output
power of the upconverter plug-in is now calibrated.
10) Close DRIVER_PLUG_IN_CAL_&_ADJUS application and disconnect PC.
11) Return the system to its original interconnections.
All information contained in this document is confidential and proprietary to THOMCAST and shall not be disclosed without the prior written permission of THOMCAST.
CREATED: AAC................................................................2/14/00
CHECKED: KAS ............................................................... 2/14/00
Document #: DOC16-0057
RELEASED: PRC ............................................................. 2/16/00
REV: FEB.16.00
Calibrations for the SDxxxxC Transmitter Series
COMWAVE DIVISION
REFL
NOTES:
1) Connection for upconverter plug-in
calibration.
2) Connection for system calibration.
FWD
Upconverter / Amplifier Plug-in Front panel
TO SPECTRUM
ANALYZER
OR
TO POWER
METER
- 30 dB
Directional
Coupler
50 OHM
TERMINATION
Open sub-chassis rear panel
TO SPECTRUM
ANALYZER
OR
TO POWER
METER
- 30 dB
Directional
Coupler
50 OHM
TERMINATION
cable
* This item should be an N-N male extension PN UG-57B/U or equiv. Substitution of this adapter requires that its insertion loss be known for accurate power measurements.
Figure 1: Calibration interconnections.
FORWARD POWER – SYSTEM:
1) Make connections as depicted in Figure 1 note 2.
2) Connect a PC with the application file DRIVER_PLUG_IN_CAL_&_ADJUS to the RS-232 port on the front
panel.
3) Initialize DRIVER_PLUG_IN_CAL_&_ADJUS application.
4) Through the program application, specifically in the POWER CONTROL BOX, set the POWER MODE to
MANUAL.
5) With the MANUAL POWER CONTROL sliding button set power in order to have a reading of 44 dBm (25W)
for the SD2500C and 47 dBm (50W) for the SD5000C at the external power meter. Account for the directional
coupler factor.
6) Enter the same number as above in the SYSTEM FORWARD POWER SET VALUE field.
7) Press the SYSTEM FORWARD POWER CALIBRATE button.
8) On the upconverter plug-in, display the Forward Power measurement by:
a) (Considering the LCD display is in its default state): SELECT (to make the STATUS option of the
STATUS / CALIBRATE screen to flash)
b) ENTER (to display PS / LO / DRIVER status screen)
c) SELECT, SELECT (to highlight the DRIVER STATUS option)
All information contained in this document is confidential and proprietary to THOMCAST and shall not be disclosed without the prior written permission of THOMCAST.
CREATED: AAC................................................................2/14/00
CHECKED: KAS ............................................................... 2/14/00
Document #: DOC16-0057
RELEASED: PRC ............................................................. 2/16/00
REV: FEB.16.00
Calibrations for the SDxxxxC Transmitter Series
COMWAVE DIVISION
9)
10)
11)
12)
13)
14)
d) ENTER (to display options INSIGNAL / SYSTEM FORWARD POWER / SYSTEM REFLECTED
POWER / DRIVER FORWARD POWER under the DRIVER STATUS menu)
e) SELECT, SELECT and SELECT (to highlight the DRIVER FORWARD POWER)
f) Enter to display the measurement
Verify that the reading on the LCD display is consistent with the reading on the external power meter. Output
power of the System is now calibrated.
Set POWER MODE to AUTO
Slide AUTO POWER CONTROL to recover power to the value previously read at the external power meter (if
necessary).
Re-check the upconverter plug-in LCD reading.
Close DRIVER_PLUG_IN_CAL_&_ADJUS application and disconnect PC.
Return the system to its original interconnections.
SYSTEM REFLECTED POWER CALIBRATION:
1) If you haven’t already performed the system forward power calibrations do so now, as described above,
omitting steps 13 and 14.
2) Put the system in stand-by with the program application.
3) On the upconverter plug-in, display the Forward Power measurement by:
a) (Considering the LCD display is in its default state): SELECT (to make the STATUS option of the
STATUS / CALIBRATE screen to flash)
b) ENTER (to display PS / LO / DRIVER status screen)
c) SELECT, SELECT (to highlight the DRIVER STATUS option)
d) ENTER (to display options INSIGNAL / SYSTEM FORWARD POWER / SYSTEM REFLECTED
POWER / DRIVER FORWARD POWER under the DRIVER STATUS menu)
e) SELECT, SELECT and SELECT (to highlight the DRIVER FORWARD POWER)
f) Enter to display the measurement
4) Swap FORWARD and REFLECTED POWER cables coming out of the output coupler.
5) Enter the number 44 for an SD2500C system and 47 for an SD5000C system in the SYSTEM REFLECTED
POWER SET VALUE field.
6) Put the system in TRANSMIT MODE.
a) While performing steps 7 and 8 the system will shut down due to the high-reflected power simulated
measurement, this is necessary; if these steps are completed within 5 seconds this will not occur.
7) Press the SYSTEM REFLECTED POWER CALIBRATE button.
8) Verify that the reading on the LCD display is consistent with the reading on the external power meter.
Reflected power of the System is now calibrated.
9) Once the system shuts down because of the high reflected power simulated measurement. Put it in STAND-BY
mode.
10) Put the FORWARD and REFLECTED POWER cables back to their original positions.
11) Set the system mode to TRANSMIT
12) Close DRIVER_PLUG_IN_CAL_&_ADJUS application and disconnect PC.
13) Return the system to its original interconnections.
All information contained in this document is confidential and proprietary to THOMCAST and shall not be disclosed without the prior written permission of THOMCAST.
CREATED: AAC................................................................2/14/00
CHECKED: KAS ............................................................... 2/14/00
Document #: DOC16-0057
RELEASED: PRC ............................................................. 2/16/00
REV: FEB.16.00
Sub-Chassis Theory of Operation - 47266170
COMWAVE DIVISION
SUB-CHASSIS THEORY OF OPERATION
The sub-chassis contains guide rails and houses the following components. Refer to Figure 1 for numerical
references.
1) One driver assembly, which is made up of three plug-in modules
a) LO plug-in
b) Power supply plug-in
c) Upconverter plug-in
The plug-in modules slide into the chassis on nylon card guides and connect to the driver back
plane board using a guide pin and a 48-position DIN connector.
The power supply plug-in module connects using a guide pin, 48-position DIN connector, and a 6position header. The header uses a DPDT push button switch to turn on the feed power only after
the plug-in module is fully inserted; this is to ensure that there is no arcing between connections
before the plug-in module is fully engaged. It also certifies that the module is properly grounded
before any voltage is applied.
2) A front-end DC power supply
This power supply is an OEM product and is hot swappable.
3) Up to four power amplifier segments
Each amplifier segment slides into the chassis on nylon slides and connects to the amplifier
motherboard via floating connectors10. The key-lock switch, located on the segments front panel,
must be in the OFF position in order to plug it in. This assures that all connections, mechanical
and electrical, are made before the amplifier is turned on.
Once the plug-in modules are in place, thumbscrews on the front panels are fastened to the sub-chassis to secure
them and provide a reliable ground connection. The key-lock switch on the amplifier segment is turned to the ON
position to apply power to the segment.
Floating OSP connectors9,10 mounted on the back plane board, the back panel of the chassis, the back of the plug-in
modules, and the back of the power amplifier segments, provide the interface for RF input and output. See
respective plug-in module theory of operation documentation for the location of the connectors.
4) Three communications boards
a) 47266064 - driver back plane board
See DOC13-0176 for more information about this board
b) 47266145 - amplifier motherboard and back plane
See DOC13-0183 for more information about this board
c) 47266165 - power supply back plane
See DOC13-0186 for more information about this board
All information contained in this document is confidential and proprietary to THOMCAST and shall not be disclosed without the prior written permission of THOMCAST.
CREATED: AB ..................................................................2/01/00
CHECKED: KAS ............................................................... 2/02/00
Document #: DOC14-0037
RELEASED: PRC ............................................................. 2/11/00
REV: FEB.02.00
Sub-Chassis Theory of Operation - 47266170
COMWAVE DIVISION
1a
1c
1b
NOTE: Boards 4b & 4c are
not visible in these photos.
SD2500C system shown
(up to 4)
(up to 4)
4a
10
(up to 4)
47266170 Sub-Chassis
Figure 1: 47266170 sub-chassis.
Refer to Figure 2 for numerical references.
5) RF Splitter
This component divides the microwave signal of the driver in, up to 4, outputs to the power
amplifier segments. It can be used as a divider by 2, 3, or 4, depending on the total output power
of the equipment.
6) Power Combiner
The power combiner merges the output signal from the power amplifier segments into one
microwave output.
7) Directional Coupler
This piece of the equipment is used to measure forward and reflected power.
8) Power Detector
The power detector transforms the forward and reflected power signals from the directional
coupler into DC voltage to be processed in the upconverter / amplifier module.
All information contained in this document is confidential and proprietary to THOMCAST and shall not be disclosed without the prior written permission of THOMCAST.
CREATED: AB ..................................................................2/01/00
CHECKED: KAS ............................................................... 2/02/00
Document #: DOC14-0037
RELEASED: PRC ............................................................. 2/11/00
REV: FEB.02.00
Sub-Chassis Theory of Operation - 47266170
COMWAVE DIVISION
Open sub-chassis rear panel
Figure 2: Sub-chassis, inside rear.
FRONT AND REAR PANEL DESCRIPTION
Front panel
The sub-chassis has no front panel; see respective plug-in module theory of operation documentation for a
discussion of front panel features.
Rear panel
Refer to Figure 3 for numerical references.
1) FAN: A rear mounted 48VDC fan provides system cooling. AC fan is optional.
2) RF OUT: RF output connector (Female N type).
3) COMMUNICATION PORTS: RJ11 phone jack connectors and a termination switch from the RS-485 board used
for communication to ComView.
4) J1: Female 14 pin header for diagnostics monitoring.
5) J2: RJ11 phone jack connector for OPTIONAL Agile controller.
6) J3: RJ11 phone jack connector for Local RS-485 communication.
7) FUSE: Main line fuse - 8amperes (used for 220V system only).
8) POWER SWITCH: Turn system on and off.
9) AC INPUT: AC Line input power cord connector.
10) FREQ REF IN: 75ohm Female F connector, external 10 MHz reference signal input.
11) FCC ID LABEL: Federal Communications Commission identification label.
12) IF INPUT: 75ohm Female BNC connector, input signal from an external source.
13) Not applicable in this model.
All information contained in this document is confidential and proprietary to THOMCAST and shall not be disclosed without the prior written permission of THOMCAST.
CREATED: AB ..................................................................2/01/00
CHECKED: KAS ............................................................... 2/02/00
Document #: DOC14-0037
RELEASED: PRC ............................................................. 2/11/00
REV: FEB.02.00
Sub-Chassis Theory of Operation - 47266170
COMWAVE DIVISION
14) Not applicable in this model.
FCC ID: CHP8BUSD5000C
MODEL SD5000C
5-50 WATTS AVG POWER TRANSMITTER
12
14
11
10
13
Figure 3: Sub-chassis rear panel.
All information contained in this document is confidential and proprietary to THOMCAST and shall not be disclosed without the prior written permission of THOMCAST.
CREATED: AB ..................................................................2/01/00
CHECKED: KAS ............................................................... 2/02/00
Document #: DOC14-0037
RELEASED: PRC ............................................................. 2/11/00
REV: FEB.02.00
Microcontroller Board (MCU) Description - 47266058
COMWAVE DIVISION
MICROCONTROLLER BOARD (MCU) DESCRIPTION
An MCU (microcontroller unit) circuit board assembly is contained within each plug-in module. The MCU
assembly hardware consists of a microcontroller IC and associated memory, a CPLD IC, and various analog and
logic support circuitry; the MCU operates under the control of a firmware program executed by the microcontroller.
Each plug-in module has it’s own firmware which is discussed in separate documents that can be found in the
respective modules section of the manual.
A variety of on-chip utilities and interfaces are integrated in the MCU, easing the support circuitry requirements and
simplifying the interfacing of the MCU to other circuit board resources. See Figure 1 for a block diagram of the
board.
The MCU is operated in an expanded mode, with program and data memory external to the MCU IC. The MCU
uses a 16 bit external data bus for interfacing to the memories. The firmware operating program is stored in IC U3,
a FLASH ROM memory. The storage is arranged and accessed in word (2 byte) mode. An address bus is provided
by the MCU to access the FLASH memory. The MCU and CPLD ICs provide additional control signals.
Two RAM ICs provide run-time data storage. U6 and U8 are 512 Kbyte static RAMs. The RAMs are served by the
MCU address bus and various support signals provided by the MCU and CPLD. Each RAM provides an 8 bit data
bus for reads and writes. By joining the two RAM data busses as low and high bytes on the 16 bit data bus, full 16
bit accesses are achieved.
Various glue logic, I/O, and register support functions are provided by IC U4, an in-circuit programmable CPLD.
The CPLD contains I/O registers that allow writes to and reads from MCU board signals such as AUX_OUT_A
through AUX_OUT_F, and ANALOG_ALARM_1 through ANALOG_ALARM_3. The CPLD registers are within
the MCU memory map and are accessed by the MCU through interfaces to the MCU address and data busses.
The CPLD register signals are used for accessing various on and off-board devices see Table 1.
Table 1: CPLD register signals.
Signal name
Type (I/O)
Application
Upconverter
Local Oscillator
System Controller
SPI user enable
N/A
User Interface; fault
alarm
Phase Lock
N/A
Analog mux address
Agile Controller
interface; back plane
interface
Analog mux address
N/A
N/A
CS_A through CS_F
AUX_OUT_A through
AUX_OUT_F
Logic_in_6, 9, 10, 11
MUX_0, 1, 2
DAC address, AGC &
ALC module control
PS and ALC module
control; user interface
IF detect, fault alarm,
remote and reflected
shutdown
Analog mux address
Analog_alarm_0, 1, 2
Vgs testing
I/O
CPLD input signals Analog_alarm 0, 1, and 2 are sourced from the outputs of analog comparators IC U11A, B, and
C. The comparators test three analog signals from board connector J103 against reference voltages provided by IC
U1, a bank of multiple digital potentiometers. This system provides for the monitoring of negative voltages.
All information contained in this document is confidential and proprietary to THOMCAST and shall not be disclosed without the prior written permission of THOMCAST.
CREATED: CPU................................................................12/10/99
CHECKED: KAS ............................................................... 1/27/00
Document #: DOC13-0175
RELEASED: PRC ............................................................. 2/10/00
REV: JAN.27.00
Microcontroller Board (MCU) Description - 47266058
COMWAVE DIVISION
Positive analog voltages applied to connector J103 are conditioned and fed to the MCU A/D converter. Single ended
voltages from J103 are amplified and band-limited by op amps contained in U9 and supporting circuitry. The
outputs of these single-ended circuits are fed to A/D inputs. Differential analog voltages are amplified with fixed
gain and band-limited with op amp ICs U10, U14, U17, and supporting circuitry. These op amp circuits convert the
differential input signals to single ended signals. The single ended signals are selected for monitoring through analog
multiplexers. As each signal is selected for monitoring, it is passed to a buffer and finally to an A/D input. All A/D
inputs are protected through voltage and current limiting circuits.
The MCU assembly provides two serial communication ports. Depending on application, either two RS-232 ports or
one RS-232 and one RS-485 port may be required. Jumper JK101 is used to select the function of Port 2. When
JK101 is placed in the 1-2 position, Port 2 is an RS-232 port; in the 2-3 position, it is an RS-485 port.
Table 2: Communication Ports.
Application
Upconverter
Local Oscillator
System Controller
Port 1- RS-485
Port 2- RS-232
Port 1- RS-485
Port 2- RS-232
Port 1- RS-485
Port 2- RS-485
System Controller Only
RS-485
RAM
To ComView
FLASH
ROM
address
Data (16)
RS-2321
To Front Panel
Signal
Conditioning
Buffering
Analog Inputs
Serial
A/D in
MCU - 68HC812A4
RS-485
To local
backplane
network
Serial
Logic inputs/
outputs
Logic
In
CPLD
To serial
peripherals
NOTES:
1. When used as system controller, no RS-232
board is used, two RS-485 boards are used.
COMWAVE DIVISION
TITLE:
BLOCK DIAGRAM,
MICRONCONTROLLER BOARD
DRAWN:
CPU / 12/99
CHECKED:
KAS / 2/9/00
REV
Description
RELEASED:
ECO#
NAME/DATE
CPU / 2/9/00
DWG. NUMBER:
A-47266058-034
Scale:
none
Sheet
1of 1
REV: A
Figure 1: MCU block diagram.
All information contained in this document is confidential and proprietary to THOMCAST and shall not be disclosed without the prior written permission of THOMCAST.
CREATED: CPU................................................................12/10/99
CHECKED: KAS ............................................................... 1/27/00
Document #: DOC13-0175
RELEASED: PRC ............................................................. 2/10/00
REV: JAN.27.00
Upconverter Plug-In Module Theory of Operation - 47266116
COMWAVE DIVISION
UPCONVERTER PLUG-IN MODULE THEORY OF OPERATION
This plug in module is joined to the main chassis via
three slide rails and two thumbscrews. Several modules
make up this plug-in and are accessible through its two
detachable covers. The covers, together with the rear
panel fan, are part of the forced-convection cooling
system.
The basic function of this plug-in is to convert an IF
input signal to the microwave frequency range,
containing the proper spectrum content and proper
power level to excite subsequent stages of amplification.
To accomplish this, the appropriate level IF signal, local
oscillator signal and power supply voltages must be
delivered to this plug-in. For detailed descriptions on
each of the plug-in modules, see respective module
documentation.
Refer to the block diagram, 47266116-034, for a
functional layout of the modules contained within the
plug-in; refer to Figure 2 and/or Figure 3 for the actual
location of referenced connectors and user accessible
interfaces.
IF and RF signals to and from the plug-in module are
sent through coaxial connectors and cables on the front
and back panels, while signals in a lower frequency
range go through a 48-pin connector located on the
back-panel. IF and RF signals are sent between modules
within the plug-in similarly, via coaxial cables. Signal
traffic other than IF/RF, such as, power supply voltages,
detected power voltages, and serial data from the MCU
board, are distributed between the modules using the
distribution board.
Figure 1: Upconverter plug-in module.
The IF signal enters the plug in and is routed to the IF linear processor where delay and frequency response are
adjusted, as needed. The processed IF signal is then delivered to the microwave converter module, where frequency
conversion takes place; filtering and power amplification follow the conversion inside this module. Embedded
between amplifier stages of the microwave converter module, the microwave pre-corrector generates
intermodulation products with opposite characteristics of those generated in the last amplifiers of the system,
minimizing the overall third and fifth order products of the system RF output. The IPA module provides a final
amplifier stage that boosts the signal before it leaves the plug-in.
Two major level closed loop controls are present in this plug-in module; one is to keep the constant 0dBm total
power at the microwave precorrector module. In this case, a power-sensing device is installed inside the module,
right before the J5 connector, the resultant proportional voltage is then fed to the distribution module where an
integrated circuit (U18) compares with a reference and driver PIN attenuators inside the IF linear processors
accordingly.
The second closed loop control is to compensate the gain variation of the amplifier chain up to the transmitter
output. Both integrators and PIN attenuators are found inside the µW precorrector module and the voltage
proportional to the power level is fed from an external detector module.
All information contained in this document is confidential and proprietary to THOMCAST and shall not be disclosed without the prior written permission of THOMCAST.
CREATED: AAC................................................................2/4/00
CHECKED: KAS ............................................................... 2/7/00
Document #: DOC14-0039
RELEASED: PRC ............................................................. 2/11/00
REV: FEB.07.00
Upconverter Plug-In Module Theory of Operation - 47266116
COMWAVE DIVISION
The distribution board also receives the voltage proportional to the temperature that is generated by a temperature
sensor module; this module is usually placed on the last power amplification stage.
The interface board is responsible for providing +24, +12, -12, and +8V to the plug-in, as well as voltages of
forward and reflected detected power for further processing. This board is also the channel through which serial data
is exchanged between this, other plug-ins, and the rest of the system.
The front panel PCB has a serial port, which can be used for testing, adjusting or controlling most of the plug-in
functions with the help of a personal computer. Together the front panel overlay keyboard and the display board
provide a user interface capable of controlling a limited number of functions inside the upconverter plug-in module;
they also allow for the presentation of a series of measurements in the LCD display.
FRONT AND REAR PANEL DESCRIPTIONS
Front Panel
Refer to Figure 2 for numerical references.
1) THUMB SCREWS: Secure module to the
sub-chassis and provide a reliable ground
connection; loosen to remove module for
replacement or repair.
2) LCD DISPLAY: Displays a series of
measurements, user adjustments, and
general status information.
3) LO INPUT: Female SMA 50O connector
used to input the LO signal from the LO
plug-in module. LO level must be 13 dBm
±1 dB.
4) UHF/IF SAMPLE: Female SMA 50O
connector used to test the signal level after
exiting the IF linear processor module.
5) RF SAMPLE: Female SMA 50O
connector used to test the output level.
6) COMM PORT: RS-232 Communications
port for communication to a PC.
7) KEYPAD: User’s selection keys:
a)
SEL – select, provides user with
scrolling capabilities.
b) ENT – enter, allows user to choose an
option.
c)
Figure 2: Upconverter plug-in front panel.
ESC – escape, allows user to go back
to previous screen.
d) SAVE – allows user to store new
All information contained in this document is confidential and proprietary to THOMCAST and shall not be disclosed without the prior written permission of THOMCAST.
CREATED: AAC................................................................2/4/00
CHECKED: KAS ............................................................... 2/7/00
Document #: DOC14-0039
RELEASED: PRC ............................................................. 2/11/00
REV: FEB.07.00
Upconverter Plug-In Module Theory of Operation - 47266116
COMWAVE DIVISION
settings or adjustments.
8) POTENTIOMETER: Used in conjunction with the LCD display and keypad this allows the following user
adjustments:
e) Precorrection
i) Distribution Generation
a) Power Level
ii) Cancellation 1
b) Output Power
iii) Cancellation 2
c) Frequency Response 1
iv) Phase
d) Frequency Response 2
9) HANDLE: Assists in removing module from sub chassis.
Rear Panel
Refer to Figure 3 for numerical references.
1) FAN: 18 CFM DC for plug-in module
cooling only.
2) 48 PIN DIN: Interface to the back plane,
(all power, control and diagnostics)
3) GROUND / ALIGNMENT STUD:
Ensures that proper ground is made prior
to engaging the 48 pin DIN; also aids in
the alignment of the module within the
sub-chassis.
4) IF INPUT: Male 50O blind mate
provides interface to the back plane and
allows passage for the IF input signal.
5) Not applicable in this model.
6) Not applicable in this model.
7) RF OUTPUT: Male 50O blind mate
supplies the RF output signal to the
transmitting system of amplifier cage,
depending on model type.
Figure 3: Upconverter plug-in rear panel.
All information contained in this document is confidential and proprietary to THOMCAST and shall not be disclosed without the prior written permission of THOMCAST.
CREATED: AAC................................................................2/4/00
CHECKED: KAS ............................................................... 2/7/00
Document #: DOC14-0039
RELEASED: PRC ............................................................. 2/11/00
REV: FEB.07.00
Upconverter Plug-In Module Specifications – 47266116.00
COMWAVE DIVISION
UPCONVERTER PLUG-IN MODULE SPECIFICATIONS
Parameter
Specification
Notes/Test Conditions
IF INPUT
Digital
Average Input Power
IF Input Frequency
Connector / Impedance
IF Input Level
IF Input Frequency
Aural Carrier
Visual Carrier
Connector / Impedance
Average Output Power
Output Frequency
Frequency Response
IM3 (dBc)
Carrier to Noise (C/N)
Hum and Noise
Group Delay
Digital Modulation
Error Vector Magnitude (EVM)
Digital Modulation
Signal to Noise Ratio (SNR)
Magnitude Linearity
(AM-AM conversion)
Phase Linearity
(AM-PM conversion)
RF Output Regulation
Connector / Impedance
Output Power
Output Frequency
Emission
223-1 PN data sequence (at transmitter output)
-15 dBm ± 2 dB
44 MHz (center)
Other frequency options available
Blind Mate / 75 O
Mates with floating back-plane connector
Analog (Combined visual and aural)
-8 dBm peak ± 2 dB (Visual
Combined visual and aural
Carrier)
-23 dBm peak ± 2 dB (Aural
Carrier)
Other frequency options available
41.25MHz
45.75MHz
Blind Mate / 75 O
Mates with floating back-plane connector
RF OUTPUT
Digital
20mW to 200mW
Function of A.L.C. settings - 223-1 PN data sequence (at
driver output)
1850 - 3600 MHz
In select bands
≤ ±0.25 dB
FC ±2.6 MHz
Measured at Sub-rack output
< 50
16dBm RF Output Power (64QAM) Relative to in-band
average PSD measured @ 100 KHz RBW
≥ 55 dB
≤ -60 dBc
≤ ±15 ns
FC ±2.6 MHz
RF Output Connector
64-QAM/8-VSB @ 5.06 Msps RMS average over 12,500
≤ 2.0%
symbols
Measured at Sub-rack output
64-QAM/8-VSB @ 5.06 Msps RMS average over 12,500
≥ 30 dB
symbols
Measured at Sub-rack output
Measured at Sub-rack output
≤ ±0.125 dB
≤ ±0.75°
Measured at Sub-rack output
≤ ± .2 dB
Blind Mate / 50 O
Measured at Sub-rack output
Mates with floating back-plane connector
Analog Performance
100mW - 1 Watt Peak Sync
Adjustable from 10 to 100% of peak sync power
Any 6, 7, or 8 MHz Channel
In select bands
1850 - 3600 MHz
5M75C3F or per CCIR
All information contained in this document is confidential and proprietary to THOMCAST and shall not be disclosed without the prior written permission of THOMCAST.
CREATED: AAC................................................................3/19/99
CHECKED: KAS ............................................................... 2/7/00
SPECIFICATIONS SUBJECT TO CHANGE WITHOUT NOTICE
RELEASED: AAC ............................................................. 2/8/00
Document #: 47266116.00-306
REV: P1
Upconverter Plug-In Module Specifications – 47266116.00
COMWAVE DIVISION
Parameter
Specification
IM3 (dBc)
< 50
RF Output Regulation
= ± 0.2 dB
Notes/Test Conditions
Two Tones @ 13dBm/c (∆f = 6MHz) – RF Output
Connector
DC POWER REQUIREMENTS
Voltages / Currents
Connector
Cooling
Operating Temperature
Relative Humidity
RF Output Failure Alarm
Over- Temperature Alarm
In-Signal Indicator
Transmit Indicator
Power Supply Status /
Measurements
RF Power Measurements
Temperature Indicator
Frequency Response (low side)
Adjustment
Frequency Response (high side)
Adjustment
Distortion Level Adjustment
+12 VDC ±.5 @ 2.5A max
+8 VDC ±.5 @ 1.2A max
-12 VDC ±.5 @ 150ma max
48 conductor, 3amps / circuit
Interfaces to back-plane
minimum
ENVIRONMENTAL
Forced air-cooled, minimum of 18
Forced air-cooled drawing ambient air through the intake
CFM required
on the front of the Up-Converter Plug-In. and exhausting
out the rear.
0°C to 50°C
0 to 95% non-condensing
ALARMS / INDICATORS / AJUSTMENTS / CONTROLS
DRIVER FAILURE Low (TTL
Signal available at back-plane
Low) = RF Output Failure
DRIVER FAILURE Low (TTL
Signal available at back-plane and
Low) = Over Temperature
Visible via LCD Display (Software/pending)
PRESENT or NOT PRESENT
Visible via LCD Display (Software/pending)
ON AIR or OUT OF AIR
Visible via LCD Display (Software/pending)
PASS or FAIL / V scale
Visible via LCD Display (Software/pending)
Detector Threshold Control
% Scale (dBm scale option)
°C scale
Potentiometer allows adjustment of
low side IF frequency response
Potentiometer allows adjustment of
high side IF frequency response
Potentiometer allows adjustment of
pre-distortion level
Potentiometer allows adjustment of
ALC.
RS-232 interface
Input Level Control
RS-232 interface
Frequency Response (low side)
Control
Frequency Response (high side)
Control
Distortion Level Control
RS-232 interface
Linearity Cancellation 1 Control
Potentiometer allows adjustment of
linearity cancellation
RS-232 interface
ALC Level Adjustment
Linearity Cancellation 2 Control
RS-232 interface
RS-232 interface
Visible via LCD Display (option is Software/pending)
Visible via LCD Display (Software/pending)
Access via front panel
Access via front panel
Access via front panel
Access via front panel
Set via laptop computer with VB application, Access via
front panel
Set via laptop computer with VB application, Access via
front panel
Set via laptop computer with VB application, Access via
front panel
Set via laptop computer with VB application, Access via
front panel
Set via laptop computer with VB application, Access via
front panel
Access via front panel
Set via laptop computer with VB application, Access via
front panel
All information contained in this document is confidential and proprietary to THOMCAST and shall not be disclosed without the prior written permission of THOMCAST.
CREATED: AAC................................................................3/19/99
CHECKED: KAS ............................................................... 2/7/00
SPECIFICATIONS SUBJECT TO CHANGE WITHOUT NOTICE
RELEASED: AAC ............................................................. 2/8/00
Document #: 47266116.00-306
REV: P1
Upconverter Plug-In Module Specifications – 47266116.00
COMWAVE DIVISION
Parameter
Specification
Distortion Phase Control
RS-232 interface
ALC Level Control
RS-232 interface
Stand-by Control
RS-232 interface
Reset Control
Momentary switch to reset onboard Microprocessor
Notes/Test Conditions
Set via laptop computer with VB application, Access via
front panel
Set via laptop computer with VB application, Access via
front panel
Set via laptop computer with VB application, Access via
front panel
Access via front panel
Access via front panel
Function Switch
Stand-by
Places system in stand-by mode
Meter Off
No indication on analog meter
+11V P.S.
Displays proper DC voltage of the
main switching power supply
FWD PWR
Displays forward power on analog
meter
REFL PWR.
Displays reflected power on analog
meter
Analog Meter
Visible via front panel
+11V P.S.
Indicates proper DC voltage of the
main switching power supply
FWD PWR
Indicates forward power
transmitted
REFL PWR
Indicates reflected power
transmitted
PHYSICAL
Mechanical Dimensions
4.75”H x 4.2”W x 17.5”D1
Weight
Front Panel Color
6 lbs. (3Kg)
Matches Sherwin William’s Paint
No.
Light Gray ……..F63TXA2555
Medium Gray ….F63TXA4841
12.07 cm H x 10.67 cm W x 44.45 cm D
Paint mix number 4303 identifies store location when
added to Paint No.
Lexan overlay color matched as indicated
Measured without ground pin on rear panel and front panel handle; add approximately 2” for these.
All information contained in this document is confidential and proprietary to THOMCAST and shall not be disclosed without the prior written permission of THOMCAST.
CREATED: AAC................................................................3/19/99
CHECKED: KAS ............................................................... 2/7/00
SPECIFICATIONS SUBJECT TO CHANGE WITHOUT NOTICE
RELEASED: AAC ............................................................. 2/8/00
Document #: 47266116.00-306
REV: P1
Front Panel Board - 47266086
P2
10
J2
10
USERPOT
P1 P1
SELECT
SAVE
ENTER
ESC
SAVE
ESC
EN
CH
ENTER
ENA_RS232
RS232_TXD
SELECT
RS232_RXC
DIGITAL GND
NC
DIGITAL GND
+5V DIGITAL
P3
Front Panel
Overlay 47266003
10
10
10
10
-12V
UW_CONVERTER_PWR
OUT_AMP_CURR
AGND
OUT_AMP_CURR
AGND
RF_CORR_DET_IN
INTER_AMP_CURR
MIX_AMP_CURR
J5
P1
VGS_MON_1
J8
P1
AGND
AGND
AGND
VGS_MON_2
VGS_MON_3
-12V
IPA_DETECTED_PWR
DRIV_FIN_AMP_CURR
DRIV_FIN_AMP_CURR
10
10
DRIV_FIN_AMP_CURR
IPA 47266077
Microwave
Converter
47266075
REV
ECO#
Description
NAME/DATE
CANC1
DIST_GEN
PHASE
CANC2
PWR_LIMIT
16
ALC_ON_OFF
16
15
LED -
15
ALC_AUTO_CTRL
14
LED +
13
14
13
D7
ALC_MAN_CTRL
D6
12
11
12
11
D5
ALC_INT_EXT_CTRL
D4
ADAPT_CANCEL
10
P2
10
P2
D3
D2
+12V
D1
+12v
D0
NC
Distribution board - 47266084
NC
R/W
RS
DRIVER_RF_MEASURE
VDC
AGND
P1
+5VDIGITAL
P1
GND
LCD Display board - 750063
J6
DIGITIAL GND
COMWAVE DIVISION
Microwave Precorrector - 47266073
TITLE:
INTERCONNECT, DRIVER PLUG-IN MODULE
DRAWN:
AAC 02/14/00
CHECKED:
????????
RELEASED:
Name / date
DWG. NUMBER:
A-47266116-050
Scale:
none
Sheet
1 of 2
REV: P2
8
10
11
12
13
14
15
16
17
18
19
20
10
11
12
13
14
15
16
17
18
19
20
+12VA [2,3,4,5]
+12VA [2,3,4,5]
-12V [3,4,5]
RS232_TXD [5]
RS232_RXD [5]
RS485_LOCAL_R+ [5]
RS485_LOCAL_T+ [5]
RS485_LOCAL_T- [5]
GND
RS485_LOCAL_R- [5]
20
20
J100
19
19
18
18
ALC_LOOP_SELECT_2 [2,4]
17
17
SUPPLIES_EN [3]
CLOCK [1]
16
16
MOSI [1]
15
15
SS [1]
14
14
FST_RLCTD_SHTD [2]
LC_DAC [1]
13
13
REMOTE_SHDN [5]
12
12
DRIVER_FAULT [5]
11
11
ENCODER_GAIN_CTRL [5]
10
10
SELECT [5]
IN_SIGNAL [4,5]
ENA_RS232 [5]
SAVE [5]
ESC [5]
CH [5]
GND
J101
ENTER [5]
J102
Microcontroller Board - 47266058
Interface Board - 47266149
J1 J2
J1
GND
ENCODER_GAIN_CTL
DO [5]
+12V
D1 [5]
NC
D2 [5]
GND
D3 [5]
RS485_LOCAL_T-
D4 [5]
FWDPWR_1
13
D5 [5]
GND
14
D6 [5]
BOOSTER_INSIGNAL
16
D7 [5]
+8V
17
10
10
DAC_1_CS [1]
10
10
+12V
18
11
11
DAC_2_CS [1]
11
11
+24V
19
12
12
DAC_3_CS [1]
12
12
RS485_LOCAL_R-
20
13
13
AGC_ON_OFF [2]
13
13
RS485_LOCAL_T+
21
14
14
AGC_INT_EXT_CTRL [2]
14
14
RFLTDPWR_1
29
15
15
ALC_ON_OFF [2]
15
15
REMOTE_SHDN
32
16
16
ALC_INT_EXT_CTRL [2]
16
16
+8V
33
17
17
EN [5]
17
17
+12V
34
18
18
RS [5]
18
18
-12V
35
19
19
R/W [5]
19
19
RS485_LOCAL_R+
36
20
20
E [5]
20
20
GND
41
21
21
GND
44
22
22
AGC_LEVEL
45
23
23
IN_SIGNAL
48
24
24
DRIVER_FAULT
22
25
25
NC
26
26
NC
INTER_AMP_CURR [3,4]
OUT_AMP_CURR [3,4]
10
10
VDD_IO [3]
11
11
DRIV_FIN_AMP_CURR [3,4]
12
12
DRIVER_RF_MEAS [4]
13
13
AGC_LEVEL [4,5]
14
14
TEMP [3]
15
15
ADAPT_CANCEL [4]
16
16
VGS_MON_1 [4]
17
17
VGS_MON_2 [4]
18
18
VGS_MON_3 [4]
19
19
8VSW [3]
20
20
10
10
NC
MIX_AMP_CURR [3,4]
IF_THRESHOLD
FREQ_RESP#1
FREQ_RESP#2
+8v [3.5]
IF_ATT
+12VA
ADAPT_CORR [5]
+12VA
USER_POT [5]
AGND
SYS_RFL_DET_PWR [2,4]
TEMPERATURE
SYS_FWD_DET_PWR [4]
+5VA
GND
GND
AGND
J103
AUX_ATT_2
P1
J4
Distribution board - 47266084
Microcontroller Board - 47266058
GND
IF Linear Processor 47266081
COMWAVE DIVISION
TITLE:
INTERCONNECT, DRIVER PLUG-IN MODULE
Fan
Temperature Sensor
- 47266203
DRAWN:
AAC 02/14/00
CHECKED:
REV
Description
ECO#
NAME/DATE
????????
RELEASED:
Name / date
DWG. NUMBER:
A-47266116-050
Scale:
none
Sheet
2 of 2
REV: P2
Upconverter Plug-In Module, MCU State Machine
Firmware Description – 47266058.00
COMWAVE DIVISION
UPCONVERTER PLUG-IN MCU STATE MACHINE,
FIRMWARE DESCRIPTION
The MCU assembly and its firmware monitor various parameters, conditions, and commands in the plug-in module.
The firmware uses the pass/fail states of the parameters to determine the operating state of the plug-in.
In the normal AUTO mode of operation, the operating state of the plug-in is used to determine the control settings
for the plug-in. Following a RESET, the firmware enters an INIT (initialization) state, in which the initialization of
registers and network operations is performed, DOC13-0188 discusses this in more detail. Following INIT, the plugin enters the STANDBY state. In STANDBY, the RF power output of the upconverter plug-in is disabled, and
settings for the various internal modules are set for minimum gain.
Unless commanded to remain in STANDBY, the plug-in will enter the STABILIZE state, allowing the unit to come
up to desired operating power without transient failures. After a short stabilization period, the plug-in enters the
OPERATE state. In this state, full output power is produced, and pre-correction and gain controls are operational.
As the conditions of the measured parameters change, the state is modified accordingly. For example, if signal
presence is lost, the plug-in will enter the STANDBY state and will remain in that state until the signal returns. Once
signal returns, if no other failure conditions exist, the plug-in will transition through STABILIZE to the OPERATE
state. If a reflected power sample is found outside of the passing range while the plug-in is in OPERATE, the state is
changed to LIMP to attempt to provide reduced output power, thereby reducing the reflected power.
Other failures that may result in unsafe operation or damage to the plug-in or system cause the plug-in to enter the
FAILED state. The firmware may perform multiple tests of a failing parameter before deciding to enter FAILED to
reduce the effects of transients. In the FAILED state, RF output power and DC supply to the plug-in output
amplifiers are disabled. The firmware cannot exit the FAILED state without user intervention.
During factory calibration or customer site installation, the plug-in may be operated in MANUAL mode. In
MANUAL mode, the operating state is continually updated, but the state is not used to determine the control settings
of the plug-in. The control settings remain set as they were when the MANUAL mode was entered until overridden
by user commands. The user may adjust key plug-in settings to optimize plug-in performance and modify behavior,
and the settings may be stored in non-volatile memory or discarded.
All information contained in this document is confidential and proprietary to THOMCAST and shall not be disclosed without the prior written permission of THOMCAST.
CREATED: CPU................................................................1/10/00
CHECKED: KAS ............................................................... 2/9/00
Document #: DOC13-0187
RELEASED: PRC ............................................................. 2/11/00
REV: FEB.09.00
Upconverter Plug-In Firmware Description – 47266116.00
COMWAVE DIVISION
UPCONVERTER PLUG-IN FIRMWARE DESCRIPTION
The microcontroller (MCU) assembly and its operating program (firmware) handle internal monitoring functions in
the plug-in. The flow of execution of the program used in this chassis is described below. The firmware program is
contained in non-volatile memory on the MCU board.
The firmware begins execution after a RESET or power-up. The firmware instructs the MCU to initialize various
MCU registers and hardware ports, including the A/D converter. Following this, a lamp test operation is performed.
All chassis front panel LED’s are illuminated for approximately 1 second then darkened. The lamp test allows a
quick verification that all front panel LED’s are functioning. In addition, the lamp test is a clear outward sign that
the MCU board is receiving power, is executing the firmware program, and has recovered from RESET. Shortly
after the lamp test, the LED’s will display chassis status as determined by firmware tests.
Following the lamp test, program variables and measurement records are initialized. The initialization assures
integrity of records used to hold test data and communication messages. Following the initialization, the firmware
starts the MCU network functions. This process configures the MCU communication port, and instructs the MCU
how handle incoming messages. The firmware also checks an internal memory register to determine whether an RS485 network node address for this MCU assembly has been set. The network node address will either be the value
found in this register, or if no value has been set, a default value.
All aforementioned tasks are performed once after RESET. Following these tasks, a program loop is entered that
handles monitoring and communications tasks, as described below. The loop may be temporarily interrupted by
incoming communication messages. RESET ends the loop and restarts program execution.
The firmware determines the condition of key parameters such as reflected power and signal presence by taking
samples of signals of interest applied to the MCU board. Analog signals are measured using the MCU A/D
converter, while logic inputs are monitored with either the MCU or CPLD . The samples are tested against
numerical limits, and a pass/fail status is determined for each monitored signal. The firmware uses the pass/fail
states of the parameters to determine the operating state of the plug-in. The operating state of the plug-in is used to
determine the control settings for the plug-in. See documents DOC13-0187 and DOC21-0021 for a description of
the firmware state machine and its effect on the control of the plug-in.
The measurements of parameters and other operating information (status) are compiled by the firmware in a
memory table. This status table may be sent as a communication message to the System Controller or to a PC-based
user interface application. The System Controller or the user application sends a status query message to the plug-in
and receives the status table in response.
At any time during firmware execution, a communication message may be received by the MCU. This results in an
interruption of program execution, allowing the firmware to quickly collect and store the incoming message.
Firmware execution then returns to the point following the interruption. After a complete message has been
collected by the firmware, a response is constructed by the firmware and sent by the MCU under firmware
command.
In addition to the status query, other commands may be issued to the plug-in:
• STANDBY command - causes output power to be disabled
• ON AIR command - re-enables the plug-in output power
• RESET command - causes the firmware to restart execution
Additional commands are used during factory alignment and customer site installation to optimize equipment
performance. The commands provide calibration settings that are stored by the MCU in non-volatile memory. The
calibration settings are accessed during firmware operation to set the various plug-in systems into the calibrated
operating condition after a RESET.
All information contained in this document is confidential and proprietary to THOMCAST and shall not be disclosed without the prior written permission of THOMCAST.
CREATED: CPU................................................................1/10/00
CHECKED: KAS ............................................................... 2/9/00
Document #: DOC13-0188
RELEASED: PRC ............................................................. 2/11/00
REV: FEB.09.00
LO Plug-In Module Theory of Operation - 47266183
COMWAVE DIVISION
LO PLUG-IN MODULE THEORY OF OPERATION
The LO plug-in module consists of a microwave
synthesizer, microcontroller board, distribution
board, and display board. It determines the
microwave upconverter mixer input and
transmitter output operating frequency. The
operating frequency is determined by
programming of the phase locked loop
frequency synthesizer. Miniature DIP switches
SW1 and SW2 set N counter and A counter PLL
programming inputs. A 10 MHz input reference
signal3 determines the frequency stability of the
PLL, see Figure 2 for numerical reference.
Figure 1: LO plug-in module.
The synthesizer module uses a microwave prescaler, dual modulus prescaler, and internal dividers to reduce the 10
MHz reference and microwave voltage controlled oscillator (VCO) frequencies to 25 kHz for the 09-049 series and
09-093 version; 125 KHz for the 09-073 series, 09-097 & 09-098 versions; or 200 KHz for the 09-092 version.
These signals are applied to separate inputs of a phase detector. Input signals of equal phase generate no change in
output. Should the VCO deviate in frequency, a phase shift is detected causing an integrator/low pass filter to
generate a DC control voltage proportional to the offset frequency. This control voltage is applied to the microwave
VCO to return it to the selected frequency.
The microwave local oscillator frequency is derived by adding (or subtracting in certain cases) the desired
transmitter channel frequency to the incoming IF frequency:
EXAMPLE:
Visual Output Frequency
2501.25 MHz
Visual IF
45.75 MHz
Microwave LO Frequency
2547 MHz
Aural Output Frequency
2505.75 MHz
Aural IF
41.25 MHz
Microwave LO Frequency
2547 MHz
All information contained in this document is confidential and proprietary to THOMCAST and shall not be disclosed without the prior written permission of THOMCAST.
CREATED: DMW..............................................................2/02/00
CHECKED: KAS ............................................................... 2/02/00
Document #: DOC14-0038
RELEASED: DMW ........................................................... 2/02/00
REV: FEB.02.00
LO Plug-In Module Theory of Operation - 47266183
COMWAVE DIVISION
FRONT AND REAR PANEL DESCRIPTIONS
Front panel
Refer to Figure 1 for numerical
references.
1) CHANNEL SELECTION
INDICATOR: Not applicable in this
model.
2) PROGRAMMING KEYPAD: Not
applicable in this model.
3) LO SAMPLE: Not applicable in this
model.
4) LO OUTPUT: Provides LO Drive to
the upconverter plug-in module.
5) COMM PORT: Phone jack connector
from the RS 485 Board used for
communication to ComView Network.
Not applicable in this model.
6) LED DISPLAY PANEL:
a)
DC POWER: Indicates that
+12V DC Power is present to the
module.
i) GREEN = power present
ii) UNLIT = no power –
denotes a problem
b) LO LEVEL: Not applicable in
this model.
c)
UHF LEVEL: Not applicable in
this model.
Figure 2: LO plug-in front panel.
d) REFERENCE: Not applicable in
this model.
e)
LO ∅ LOCK: Indicates phase lock of the synthesizer or DRPLO module.
i) UNLIT = phase lock present
ii) RED = loss of phase lock
f)
UHF ∅ LOCK: Not applicable in this model.
7) HANDLE: Assists in removing module from sub chassis.
8) THUMBSCREWS: Secure module to the sub-chassis and provide a reliable ground connection; loosen to
remove module for replacement or repair.
All information contained in this document is confidential and proprietary to THOMCAST and shall not be disclosed without the prior written permission of THOMCAST.
CREATED: DMW..............................................................2/02/00
CHECKED: KAS ............................................................... 2/02/00
Document #: DOC14-0038
RELEASED: DMW ........................................................... 2/02/00
REV: FEB.02.00
LO Plug-In Module Theory of Operation - 47266183
COMWAVE DIVISION
Refer to Figure 2 for numerical
references.
1) 48 PIN DIN: Interface to the back
plane, (all power, control and
diagnostics)
2) GROUND / ALIGNMENT STUD:
Ensures that proper ground is made
prior to engaging the 48 pin DIN;
also aids in the alignment of the
module within the sub-chassis.
3) FREQ REFERENCE INPUT: Male
50O blind mate provides interface to
the back plane and allows passage for
the 10 MHz reference signal.
4) Not applicable in this model.
5) Not applicable in this model.
6) Not applicable in this model.
Figure 3: LO plug-in rear panel.
All information contained in this document is confidential and proprietary to THOMCAST and shall not be disclosed without the prior written permission of THOMCAST.
CREATED: DMW..............................................................2/02/00
CHECKED: KAS ............................................................... 2/02/00
Document #: DOC14-0038
RELEASED: DMW ........................................................... 2/02/00
REV: FEB.02.00
LO Plug-In Module Specifications – 47266052.00
COMWAVE DIVISION
LO PLUG-IN MODULE SPECIFICATIONS
Parameter
Frequency
Level
Stability
Internal
External
Connector / Impedance
Frequency Tuning Range
Tuning Step Size
Power Level
Harmonics
Non-Harmonic Spurious
Stability
SSB Phase Noise Option 1
SSB Phase Noise Option 2
Connector / Impedance
Local Oscillator Front Panel
Sample
Sample Connector /
Impedance
Format
Number of bits
Level
Latch Enable
Latch Enable pulsewidth
Voltages / Currents
Connector
Operating Temperature
Relative Humidity
Specification
Notes/Test Conditions
REFERENCE INPUT
10MHz
External , internal reference optional
0 dBm ± 5 dB ( +48 dBmV) ± 5 dB
After five minute warm up
±1.5PPM minimum
1x10-7 PPM minimum
Blind Mate / 50 O
Mates with floating back-plane connector
RF OUTPUT
1.8 to 3.7GHz
In select bands
50KHz
Other options available
+ 7dBm or +17dBm, ±2dB
-20dBc minimum
100Hz < ƒoffset < 10KHz , -70dBc
10KHz < ƒoffset < 100KHz , -60dBc
Based on frequency reference
Option 1 Standard (recommended for digital
≤110 dBc/Hz @ 10 KHz offset
transmission)
Other options available
≤85 dBc/Hz @ 10 KHz offset
SMA female / 50 O
Mates with upconverter module LO input connector
20dB below output level
Access via front panel
SMA female / 50 O
Should be terminated when unused
DIGITAL TUNING
Serial (parallel only with p/n47266183)
Varies
Depends addressed component
TTL
Required (not required with
p/n47266183)
3.5 ns minimum
DC POWER REQUIREMENTS
VCO supply &
+24 VDC ±.5 @ 50mA max
Support circuits
+12 VDC ±.5 @ 750mA max
-12 VDC ±.5 @ 100mA max
+8 VDC ±.5 @ 100mA max
DIN connector. 48 conductor, 1amp /
Interfaces to back-plane
circuit minimum
ENVIRONMENTAL
-30°C to 50°C
0 to 95% non-condensing
All information contained in this document is confidential and proprietary to THOMCAST and shall not be disclosed without the prior written permission of THOMCAST.
CREATED: DMW..............................................................3/19/99
CHECKED: KAS ............................................................... 2/7/00
SPECIFICATIONS SUBJECT TO CHANGE WITHOUT NOTICE
RELEASED: DMW ........................................................... 2/8/00
Document #: 47266052.00-306
REV: P1
LO Plug-In Module Specifications – 47266052.00
COMWAVE DIVISION
Parameter
LO Fault
Level Normal Indicator
DC PWR Presence Indicator
Phase (∅) Lock Indicator
Frequency reference
Indicator
Channel Selection Indicator
Output level Control
Channel up/down control
Frequency Control
Mechanical Dimensions
Specification
Notes/Test Conditions
ALARMS / INDICATORS / AJUSTMENTS / CONTROLS
TTL Low = fault condition
Signal available at back-plane
Green LED, ON= Normal Level
Visible via front panel, not available w/ part #
47266183
Green LED, ON= DC power present
Visible via front panel
Visible
via front panel
Red LED, ON= Loss of ∅ Lock
Red LED, ON = Frequency reference
Visible via front panel, not available w/ part #
fault
47266183
Green 7-segment display (2-digit)
Visible via front panel, not available w/ part #
47266183
RS-232 interface- allows adjustment of Set via laptop computer with VB application, Access
LO Level Attenuator, Range 15dB
via front panel, not available w/ part # 47266183
Momentary switch key pad
Access via front panel, not available w/ part #
47266183
RS-232 interface
Set via laptop computer with VB application, Access
via front panel, not available w/ part # 47266183
PHYSICAL
5.03”H x 1.47”W x 17.5”D
12.78 cm H x 3.73 cm W x 44.45 cm D
Weight
Front Panel Color
3 lbs. (1.36Kg)
Matches Sherwin William’s Paint No.
Light Gray ……..F63TXA2555
Medium Gray ….F63TXA4841
Paint mix number 4303 identifies store location when
added to Paint No.
Lexan overlay color matched as indicated
OPTIONAL UHF UPCONVERTER STAGE
IF Input
Connector / Impedance
UHF Output
UHF Connector / Impedance
LO Output
SSB Phase Noise
Level Normal Indicator
Phase (∅) Lock Indicator
INPUT
-15dBm avg. or –8dBm peak ± 2 dB
Blind Mate / 50 O
OUTPUT
-15dBm avg. or –8dBm peak ± 3 dB
Blind Mate / 50 O
+7dBm ± 2 dB
≤100 dBc/Hz @ 10 KHz offset
44 MHz center frequency standard
Mates with floating back-plane connector
351 MHz center frequency standard
Mates with floating back-plane connector
395 MHz LO frequency standard
Standard (recommended for digital transmission)
Other options available
ALARMS / INDICATORS / AJUSTMENTS / CONTROLS
Green LED, ON= Normal Level
Visible via front panel
Visible via front panel
Red LED, ON= Loss of ∅ Lock
All information contained in this document is confidential and proprietary to THOMCAST and shall not be disclosed without the prior written permission of THOMCAST.
CREATED: DMW..............................................................3/19/99
CHECKED: KAS ............................................................... 2/7/00
SPECIFICATIONS SUBJECT TO CHANGE WITHOUT NOTICE
RELEASED: DMW ........................................................... 2/8/00
Document #: 47266052.00-306
REV: P1
Front Panel LO Output
EXT REF.
Microwave Synthesizer
09-097
Front Panel LO sample
COMWAVE DIVISION
TITLE:
BLOCK DIAGRAM,LO PLUG-IN MODULE
DRAWN:
DMW / 2-2-00
CHECKED:
KAS / 2-2-00
REV
Description
ECO#
NAME/DATE
RELEASED:
PRC / 2-11-00
DWG. NUMBER:
A-47266183-034
Scale:
none
Sheet
1of 1
REV: A
14
15
16
17
18
19
20
21
22
23
14
15
16
17
18
19
20
21
22
23
24
N/A
N/A
N/A
N/A
17
+8V
33
+8V
CLOCK
+12V
LATCH ENABLE D
18
+12V
DATA
34
+12V
DN SW DB
GND
UP SW DB
19
+24V
35
-12V
GND
20
RS485 Local R-
D0
10
10
D1
11
11
36
RS485 Local R+
D2
12
12
RS485 Local T-
D3
13
13
21
RS485 Local T+
D4
14
14
LO/FRONT END FAULT
D5
15
15
14
GND
D6
16
16
41
GND
44
GND
11
12
UHF LEVEL DETECT
SPARE
UHF LOCK
10
GND
UHF LO LEVEL
DATA
CLOCK
LATCH ENABLE C
GND
12
11
10
EN
+12V
GND
GND
+12V
CH
VARIABLE ATTEN CONTROL
N/A
N/A
N/A
N/A
N/A
N/A
N/A
24
13
13
N/A
12
12
MICROWAVE LOCK
20
11
19
20
10
19
ENA__RS 232
11
TXD_RS 232
10
18
N/A
17
18
17
D7
RXD_RS 232
N/A
N/A
LED 6
N/A
LED 5
N/A
LED 4
N/A
LED 3
N/A
LED 2
N/A
LED 1
+12V
UP SW
N/A
DN SW
GND
GND
Display board
Front Panel Overlay
-12V
CLOCK
LATCH ENABLE A
DN SW DB
UP SW DB
LED 1
RS485 Local TRS485 Local T+
LO/FRONT END FAULT
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
RS485 Local R+
RS485 Local R-
UHF LEVEL DETECT
VARIABLE ATTEN CONTROL
MICROWAVE LOCK
UHF LOCK
EXT REFERENCE PRESENCE
REFERENCE LEVEL OK
SPDT LOW PASS FLTR CONTROL 2
MICROWAVE LO LEVEL
SPDT LOW PASS FLTR CONTROL 1
UHF LO LEVEL
REF TRIM ADJ
VARIABLE FLTR CONTROL 4
VARIABLE FLTR CONTROL 3
VARIABLE FLTR CONTROL 1
VARIABLE FLTR CONTROL 2
ALC REF ADJ
RS 232
RS 232
RS 232
RS 232
LED 6
LED 3
LED 4
LED 5
LED 2
DATA
LATCH ENABLE D
LATCH ENABLE C
LATCH ENABLE B
GND
+12V
Microcontroller
Distribution board
UHF Upconverter
OPTIONAL
REV
Description
Synthesizer 09-073-02 OR 09-097-02
DRAWN:
DMW / 2-02-00
CHECKED:
KAS / 2-02-00
RELEASED:
PRC / 2-11-00
ECO#
NAME/DATE
TITLE:
INTERCONNECT,LO PLUG-IN MODULE
COMWAVE DIVISION
DWG. NUMBER:
A-47266183-050
Scale:
none
Sheet
1of 1
REV: A
LO Plug-In Firmware Description - 47266052
COMWAVE DIVISION
LO PLUG-IN FIRMWARE DESCRIPTION
The firmware controls and monitors the performance of the Local Oscillator plug-in module. Additionally, it
provides status and control capabilities to RS-485 and RS-232 network ports. This firmware is designed to interface
with a calibration program that programs the LO’s frequency and output power into memory, and the firmware sets
the output power and frequency in accordance with these calibration points.
TURN-ON PROCESS
When the LO module is turned on, the code executes an initialization process. This process provides a
lamp test, and displays the channel number on the front panel eight-segment LED display. An internal
reference is adjusted to operational frequency, and the synthesizer chip is programmed with the operational
frequency that was previously set into the microprocessor’s non-volatile memory. Additionally, the
working arrays and structures of the application are set into RAM. After the initialization program
completes, the code enters a simple state machine to judge and operate the LO module.
STATE MACHINE
Reference Level
The first step of the state machine is to weigh the 10 MHz source that is applied to the synthesizer. If the
reference level is acceptable, that state machine advances to the synthesizer lock state.
If the power from this source is not sufficient to assure reliable operation of the synthesizer, the LO ALC
level is minimized, and the state machine enters the failed state.
Synthesizer Lock
The synthesizer PLL chip is tested for lock. If the synthesizer is locked, the LO ALC level is adjusted to
the specified output level, and the Operating State is entered.
If the synthesizer is not locked, the failed state is selected.
Operating
During the operating state, all operational characteristics of the synthesizer are monitored. If the reference,
LO lock, or LO output power falls outside of specified operating parameters, the failed state of the state
machine is selected. Otherwise, the state machine remains in the operate mode.
Failed
The state machine enters the failed condition when ever a test of the above states are not met.
Upon entering this state, the firmware reduces the LO level, and resets the programmable chips to their
initial operational points. After a short delay, the state machine is restarted from the beginning to attempt
to bring the LO module into normal operation.
REMOTE MONITORING
The Local Oscillator has provisions for remote monitoring and control. Two networks, an RS-485 and RS232 provide the ability to control and status query the module.
The RS-485 port is directed to a local RS-485 network located on the back plane board of the driver subchassis. This network allows for the monitoring and performance of the LO module from the ComView
remote monitor and control program.
The RS-232 port, accessed on the front panel, allows for quick access to a desktop calibration program, and
is primarily used for initial calibration and factory setting of the module.
All information contained in this document is confidential and proprietary to THOMCAST and shall not be disclosed without the prior written permission of THOMCAST.
CREATED: CTS.................................................................1/24/00
CHECKED: KAS ............................................................... 2/02/00
Document #: DOC13-0184
RELEASED: PRC .............................................................. 2/11/00
REV: FEB.02.00
Power Supply Module Theory of Operation - 47266099
COMWAVE DIVISION
POWER SUPPLY MODULE THEORY OF OPERATION
The power supply module uses the latest technology and
is equipped with the following features:
•
•
•
Single-chip embedded microcontroller
monitoring and control.
RS-232 front panel connector for quick
interface to desktop computer.
Modular, hot swap assembly.
The above features offer quick and simple monitoring
functions and provide expedient assembly and repair
time.
Figure 1: Plug-in power supply module.
The DC power supply module receives 48 VDC from an external front end power supply and converts it into the
working voltage and power requirements necessary to operate the driver. Additionally, the power supply houses the
system controller CPU card that organizes network messages between the driver modules, power amplifier
segments, and the ComView monitor and control system. See DOC13-0175 for a more detailed discussion of the
system controller card, DOC13-0185 for a discussion of the system controller cards firmware, and DOC13-0173 for
a discussion of the embedded controller.
The power supply module contains a single chip embedded controller, it constantly monitors the performance of the
power supply and external controls. The embedded controller processes this information and decides the operational
control of the module then informs the system controller of the power supply's operational status.
The power supply is cooled by a single fan, and is mounted in an extrusion designed to dissipate the heat generated
from the components within. The fans of the sub-chassis also ventilate the power supply plug-in module; for
additional protection, the embedded controller monitors the temperature of the plug-in. If the plug-in module is
operating over temperature, controlled shut down of the power supplies within will occur.
The plug-in module consists of three circuit boards, the converter board with the embedded controller, system
controller board, and display board, which needs no further explanation. A brief discussion of each board's task(s)
follows:
The core of the module is the DC converter PCB. The DC converter board mounts overtop a DC to DC
converter module, which transforms the 48VDC input voltage into +12VDC. The DC converter PCB
produces the remaining voltages needed to operate the driver from the 12 VDC.
The embedded controller mounted on the DC converter PCB, monitors the voltages and currents from the
power supply and controls the output based upon voltage and current measurements. It will switch off the
All information contained in this document is confidential and proprietary to THOMCAST and shall not be disclosed without the prior written permission of THOMCAST.
CREATED: CTS ................................................................1/26/00
CHECKED: KAS ............................................................... 1/27/00
Document #: DOC14-0036
RELEASED: PRC ............................................................. 2/11/00
REV: JAN.27.00
Power Supply Module Theory of Operation - 47266099
COMWAVE DIVISION
positive voltages to the driver when a loss of negative voltage is detected in order to protect amplifier
devices that are located within the upconverter / amplifier plug-in.
Mounted directly above the DC converter PCB is the system controller PCB. It receives its operating
power directly from the DC converter PCB. Additionally, the DC converter PCB routes the RS-485
communication networks between the system controller to the back plane connector in the rear of the
chassis and eventually to other modules within the driver, as well as the ComView monitoring system.
The power supply module can be divided into the following five major categories:
1.
2.
3.
4.
5.
The power supplies provide the operating voltages needed to power the driver.
The power supply enables turn the power supply voltages on and off when commanded by the embedded
controller.
The current and voltage monitoring circuit samples the operating parameters of each power supply and
conditions them into the required voltage range within the analog to digital converters of the embedded
controller.
A temperature sensor provides input to the microcontroller proportional to the ambient temperature of the
module.
The embedded controller controls and monitors the performance of the module.
More detailed discussions of the above categories can be found in subsequent documents.
FRONT AND REAR PANEL DESCRIPTIONS
Front Panel
Refer to Figure 2 for numerical references.
1) COMM PORT: RS-232 Communications
port for communication to a PC.
2) LED's: Status monitoring LED's which
provide visual indication of operating
parameters.
a)
Power
i) GREEN = receiving power from
the front end power supply
ii) UNLIT = no power from the front
end power supply
b) DC Power
i) GREEN = output power is present
ii) UNLIT = no output power
3) FAN: 18-CFM DC for plug-in module
cooling only.
4) THUMB SCREWS: Secure module to the
sub-chassis and provide a reliable ground
connection; loosen to remove module for
replacement or repair.
5) HANDLE: Assists in removing module
from sub chassis.
Figure 2: Power supply module front panel.
All information contained in this document is confidential and proprietary to THOMCAST and shall not be disclosed without the prior written permission of THOMCAST.
CREATED: CTS ................................................................1/26/00
CHECKED: KAS ............................................................... 1/27/00
Document #: DOC14-0036
RELEASED: PRC ............................................................. 2/11/00
REV: JAN.27.00
Power Supply Module Theory of Operation - 47266099
COMWAVE DIVISION
Rear Panel
Refer to Figure 2 for numerical references.
1.
48 PIN DIN: Interface to the back plane, (all
power, control and diagnostics)
2.
POWER CONNECTOR: 6-pin header, for
power from the front-end power supply.
3.
HEATSINK: Aids in dissipation of heat
generated within the plug-in module.
4.
GROUND / ALIGNMENT STUD: Ensures
that proper ground is made prior to engaging
the 48 pin DIN; also aids in the alignment of
the module within the sub-chassis.
Figure 3: Power supply module rear panel.
All information contained in this document is confidential and proprietary to THOMCAST and shall not be disclosed without the prior written permission of THOMCAST.
CREATED: CTS ................................................................1/26/00
CHECKED: KAS ............................................................... 1/27/00
Document #: DOC14-0036
RELEASED: PRC ............................................................. 2/11/00
REV: JAN.27.00
Power Supply Plug-In Module Specifications – 47266099.00
COMWAVE DIVISION
POWER SUPPLY PLUG-IN MODULE SPECIFICATIONS
Parameter
Specification
Notes/Test Conditions
INPUT
Input Voltage
Input Current
Peak Inrush Current
Efficiency
48 VDC
4 amps maximum
≤ 6 amps
85% typical
@ low line, full rated power
@ full load
OUTPUT
Output Voltage
Output Current
Output Power
Ripple & Noise
Line Regulation
Load Regulation
All voltages are fixed.
Main Output
12VDC ±.5
+8VDC ±.5
+24VDC ±.5
-12VDC ±.5
Main Output
+12V @ 4amps
+8V @ 3.0 amps
-12V @ .4amps
+24V @ .3amps
Main Output
+12V @ 60Watts
+ 8V @ 24 Watts
-12V @ 5Watts
+24V @ 7Watts
≤200mv pp
.4% over entire AC input range
.4% no load to full load
Power from the supplies is interrupted when
the power supplies are overloaded.
Power from the supplies is interrupted when
the power supplies are overloaded.
20MHz BW
PROTECTION
Over Voltage
Over Current
Over Temperature
Power Input Interlock
The power supply will shut off if the
voltage exceeds the nominal voltage by
20%.
The power supply will shut off if the current
exceeds the maximum value.
The power supply will shut of if the
temperature exceeds 70°C. Restart is
automatic when power supply returns to
normal operating temperature.
Interlock system assures power disconnects
during module insertion or extraction.
ENVIRONMENTAL
Cooling
Forced air-cooled, minimum of 15 CFM
required
Operating Temperature
Relative Humidity
0°C to 50°C
0 to 95% non-condensing
Forced air-cooled drawing ambient air
through the intake on the front of the power
supply and exhausting out the rear.
All information contained in this document is confidential and proprietary to THOMCAST and shall not be disclosed without the prior written permission of THOMCAST.
CREATED: CTS ................................................................3/19/99
CHECKED: KAS ............................................................... 2/7/00
SPECIFICATIONS SUBJECT TO CHANGE WITHOUT NOTICE
RELEASED: CTS.............................................................. 2/8/00
Document #: 47266099.00-306
REV: P1
Power Supply Plug-In Module Specifications – 47266099.00
COMWAVE DIVISION
Parameter
Specification
Notes/Test Conditions
ALARMS / INDICATORS / AJUSTMENTS / CONTROLS
DC Output Failure Alarm
DC-OK Indicator
TTL Low = DC Output Failure
Green LED, ON= DC OK
Signal available at back-plane
Visible via front panel
Safety
Meets UL and CSA approvals
Weight
Front Panel Color
4 lbs. (1.81Kg)
Matches Sherwin William’s Paint No.
Light Gray ……..F63TXA2555
Medium Gray ….F63TXA4841
Mechanical Dimensions
4.75”H x 3.0”W x 17.5”D
AGENCY COMPLIANCE
(pending)
PHYSICAL
Paint mix number 4303 identifies store
location when added to Paint No.
Lexan overlay color matched as indicated
12.07 cm H x 7.62 cm W x 44.45 cm D
All information contained in this document is confidential and proprietary to THOMCAST and shall not be disclosed without the prior written permission of THOMCAST.
CREATED: CTS ................................................................3/19/99
CHECKED: KAS ............................................................... 2/7/00
SPECIFICATIONS SUBJECT TO CHANGE WITHOUT NOTICE
RELEASED: CTS.............................................................. 2/8/00
Document #: 47266099.00-306
REV: P1
Power Supply Plug In Module Block Diagram
COMWAVE DIVISION
POWER SUPPLY PLUG-IN MODULE BLOCK DIAGRAM
DC to DC
converter, 12
Volts output
Positive
Voltage
Switch
8 Volt
Supply
DC inverter, 12 Volts
output
Negative
Voltage
Switch
Driver Back Plane connector
5 Volt
Supply
Output Voltage and Current Monitoring
48V DC
input
power
24 Volt
Supply
Local Micro Controller
Master Micro Controller
All information contained in this document is confidential and proprietary to THOMCAST and shall not be disclosed without the prior written permission of THOMCAST.
CREATED: CTS
1/26/00
CHECKED: KAS
1/27/00
RELEASED: PRC
Document #:47266099-034
2/11/00
REV: A
GND
DC OK
RS-232 R
RS-232 T
RS232 ENABLE
+12 Volts
Display
Interface
J1
Power
GND
Power
DC OK
Front Panel
Overlay
J3
GND
+12 V
Fan
Purchased part
Global MCU
DC converter board
COMWAVE DIVISION
TITLE:
Interconnection, Power Supply Module
w/ DC Font end.
DRAWN:
CTS / 8-24-99
CHECKED:
KAS / 1-27-00
REV
Description
ECO#
NAME/DATE
RELEASED:
PRC / 2-11-00
DWG. NUMBER:
B-47266099.02-050
Scale:
none
Sheet
1 of 2
REV: A
Power Supply Module - Embedded Microcontroller
COMWAVE DIVISION
POWER SUPPLY MODULE EMBEDDED CONTROLLER
Reset Circuitry
Two integrated circuits monitor the condition of the 5VDC power source; additionally they monitor the closure of the
reset jumper. When the jumper is shorted, or the 5VDC power supply falls below a preset threshold, a reset line goes
low.
The reset line is tied directly to the reset input of the controller. When this voltage transitions from TTL high, to
TTL low, and returns high, the embedded controller will reset and begin executing instructions from the designed
initial turn on procedures.
Node Address Switches
Node address switches located on the DC converter PCB apply TTL high and low signals into the embedded
controller’s input port C. The controller reads the settings of the switches to determine the node address that the
module will report to as a node device within the RS-485 network.
Alternately, the node address can be directly programmed into the firmware or EEPROM of the embedded
controller, and the node address switches can be used to set operational characteristics of the module for diagnostic
aids.
RS-485 Communications
Communications between the embedded controller and the RS-485 network are handled via a Universal
Asynchronous Receiver-Transmitter (UART). The UART communicates with the microcontroller via the Serial
Peripheral Interface (SPI) built into both devices. When a byte from the message arrives on the RS-485, the UART
stores the information in memory, and generates an interrupt to the embedded controller. The embedded controller
services the interrupt by transferring the byte from the UART to the microprocessor. The microprocessor assembles
the message, byte by byte within its own memory.
To send a message to the RS-485 network, the microprocessor sends a byte of the message to the UART through the
SPI. The UART sends the byte onto the network. This process is completed, byte by byte, until the entire message
is sent across the RS-485 network.
RS-232 Communications
The communication from and to the RS-232 port is handle via the Serial Communications Interface (SCI) of the
microcontroller, and an RS-232 line driver. The RS-232 line driver conditions the SCI signals for output onto the
RS-232 network, and in turn returns an RS-232 logic signal to the TTL logic required for the SCI to process the
message. The SCI within the microcontroller assembles the byte and generates an internal interrupt within the
microprocessor. The microprocessor then stores the byte with memory to assemble the message.
To send a message to the RS-232 network, the message is written byte by byte onto the RS-232 register, and this
sends the messages onto the network.
Front and Rear Panel indicators
The embedded controller writes status information into a latching line driver. The outputs of this latching line driver
drive the positive and negative power supply enables. Additional outputs from the line driver supply the power to
illuminate the LED’s installed within the front panel overlay, also a rear-panel fault alarm is provided to the rear
panel.
All information contained in this document is confidential and proprietary to THOMCAST and shall not be disclosed without the prior written permission of THOMCAST.
CREATED: CTS ................................................................1/26/00
CHECKED: KAS ............................................................... 1/27/00
Document #: DOC13-0173
RELEASED: CTS.............................................................. 2/14/00
REV: JAN.27.00
System Controller Firmware Description - 47266099
COMWAVE DIVISION
SYSTEM CONTROLLER FIRMWARE
The system controller firmware is responsible for monitoring the operational parameters of the chassis with the
network. The system controller routinely services each module within the driver, and the status of the module is
determined. A table of information is kept for the status of each device within the driver, and an overall status is
determined for the driver chassis as an entity. When the ComView remote monitoring program queries the status of
the driver, the system controller returns the status of the operational parameters to ComView
MODES OF OPERATION
Scan mode
The normal mode of operation for the system controller is the scan mode. The controller takes charge of
the local RS-485 bus, and operates network messaging.
When the firmware is in the scan mode, the system controller sends out a status request to each module
sequentially, each module then responds with its current status; the system controller stores and processes
this information. This cycle repeats until all of the modules in the network are serviced, the scanning
process is then repeated.
When ComView requests the status of the driver chassis, the controller provides the information that was
gathered and determined from each module.
Service mode
This mode of operation applies when the ComView application is suspended, and a calibration program is
launched from a desktop PC.
The calibration application works with one module at a time within the driver. When this mode of
operation is active, the system controller stops the scanning process. Messages from the calibration
program are received from the remote RS-485 network, and relayed onto the local RS-485 network; the
system controller does not modify this message. When the module processes the message routed through
the system controller, it replies to the controller through the local RS-485 network. The system controller
then relays this message to the remote RS-485 network, which, in turn relays it back to the desktop PC
running the calibration application.
In this mode of operation the system controller appears transparent to both the module and the Desktop PC.
Local RS-485
The local RS-485 bus is the network that all of the modules within a system controller connect to and
utilize for intercommunication during normal operation.
Remote RS-485
The remote RS-485 bus is the network that the driver provides to the outside world.
This network is primarily used for the remote monitoring and control provided by ComView. This port can
also be used for calibrations and system settings that mirror each module’s front panel RS-232 connector.
All information contained in this document is confidential and proprietary to THOMCAST and shall not be disclosed without the prior written permission of THOMCAST.
CREATED: CTS.................................................................1/24/00
CHECKED: KAS ............................................................... 2/02/00
Document #: DOC13-0185
RELEASED: PRC .............................................................. 2/16/00
REV: FEB.16.00
Power Amplifier Segment Theory of Operation - 04-294, 04-333
COMWAVE DIVISION
POWER AMPLIFIER SEGMENT THEORY OF OPERATION
The power amplifier segments of the high
power single channel transmitter series or
broadband booster series use the latest
technology in power FET’s. The transistors
provide high output power, as well as more
linearity
and
higher
efficiency.
Mechanically, the power amplifier segments
have a plug-in architecture that allows hot
replacement.
In addition to hot
replacement, the architecture of the
amplifier enables flexibility to tailor the
system to higher output power levels and
can be easily upgraded.
The power amplifier segment consists of a
microwave amplifier2 , control board 1 , DC to
DC converter3 , and a front panel.
microcontroller system, located on the
control board, supervises and controls the
power amplifier segment in each of its
functions. The DC to DC converter reduces
48 VDC front-end power supply input to the
nominal amplifier voltage of 10.5 V. The
front panel displays the status of the
amplifier segment and interfaces the control
board to a computer by means of a serial
RS-232 port 4 . See Figure for numerical
references.
FRONT VIEW
SIDE VIEW
Figure 1: Power amplifier segment.
OPERATION
The amplifier segment is equipped with a
key lock switch on the front panel to retain
it in place. When pushing-in or pulling-out
the Segment, turn the key lock switch to the
OFF position. After plugging the amplifier
segment into the sub-rack and tightening
the front panel thumbscrews, turn the keylock switch to the ON position. The 10
VDC secondary power supply will start up
the control board, which applies a negative
voltage to the gates of the FET’s and turns
the DC to DC converter on. It also adjusts
the transistor’s current and releases the
input signal to the microwave amplifier.
The airflow passes through the heatsink
from the front to the rear of the sub-rack.
The airflow loss to the other power
amplifier segments during hot replacement
is negligible.
POWER AMPLIFIER SEGMENT BLOCK DIAGRAM
DC to DC Converter
Rear Panel
Connector
Microwave Amplifier
Document #: DOC15-0013 REV: C, ECO #: 98-116
Control Panel
Created by: KAS 9/15/98
Front Panel
Connector & Key
Lock Switch
Checked by: DMW 9/18/98
Released by: PRC 10/29/98
Figure 2 : DOC15-0013 power amplifier segment block diagram.
All information contained in this document is confidential and proprietary to THOMCAST and shall not be disclosed without the prior written permission of THOMCAST.
CREATED: KAS................................................................... 9/15/98
CHECKED: DMW ................................................................ 9/18/98
Document #: DOC14-0008
RELEASED: PRC ................................................................. 10/20/98
REV: DEC.08.99 ECO #: 98-116
Power Amplifier Segment Theory of Operation - 04-294, 04-333
COMWAVE DIVISION
POWER AMPLIFIER SEGMENT SPECIFICATIONS
Table 1: DOC19-0014, REV D.
PARAMETER
SPECIFICATION
Primary Voltage
48 VDC
Primary Current
4.9 A
Secondary Voltage
10 ±0.5 VDC
Secondary Current
400 mA
Communication Port
RS-232 and RS-485
Input Power
Digital
12.0 dBm
Analog
17.5 dBm (@ POut1dB)
Output Power
Digital
41.5 dBm
Analog
47.0 dBm (@ POut1dB)
DC Connector
Floating Molex p/n 15-06-0141
Impedance / RF Connector
50 O / Blindmate
Operating Temperature
0° to 50° C
Dimensions
10.3” H x 2.1” W x 17.1” D
Approximate Weight1
26.16 cm H x 5.33 cm W x 43.43 cm D
10 lbs (4 Kg)
• SPECIFICATIONS ARE SUBJECT TO CHANGE WITHOUT NOTICE.
Weight doesn’t include shipping material.
All information contained in this document is confidential and proprietary to THOMCAST and shall not be disclosed without the prior written permission of THOMCAST.
CREATED: KAS................................................................... 9/15/98
CHECKED: DMW ................................................................ 9/18/98
Document #: DOC14-0008
RELEASED: PRC ................................................................. 10/20/98
REV: DEC.08.99 ECO #: 98-116
Amplifier Segment State Flow Diagram
COMWAVE DIVISION
AMPLIFIER SEGMENT STATE FLOW DIAGRAM
Arrow Key
Front panel
switch on
driver placed
out of
standby
COLD
STANDBY
Normal State Progression
Standby control active
Module failure
FAILED
Established AGC at
nominal power
Created by: Kimberly Simeone
Document #: DOC21-0006
REV: A
11/23/98
RAMP
UP
RESET
TRANSMIT
Checked by: Christian Smith
Completion of
ramp up delay
loop. Transistors
at nominal current.
11/23/98
Released by: Donald Wike
All information contained in this document is confidential
and proprietary to COMWAVE and shall not be disclosed
without the prior written permission of COMWAVE.
11/23/98
Firmware Flowchart Power Amplifier Segment
COMWAVE DIVISION
FIRMWARE FLOWCHART
START
Initialize module, network and
operational mode
Begin main loop
Update the operational
parameters of the module
Test the operational parameters
against programmed limits to ensure
valid operation of the module
Determine the operational
state of the module
Record invalid operational
parameters into EEPROM for
later analysis
Control gate and ALC functions of
the module based on current state.
Check for and
communicate over the
RS-485 network
All information contained in this document is confidential and proprietary to THOMCAST and shall not be disclosed without the prior written permission of THOMCAST.
CREATED: KAS
11/20/98
CHECKED: CTS
11/23/98
Document #: DOC21-0005
RELEASED: DMW
REV: DEC.08.99
11/23/98
Customer Service
COMWAVE DIVISION
CUSTOMER SERVICE
CONTACT INFORMATION
DURING BUSINESS HOURS
Inquiries may be directed to Thomcast Communications, Comwave Division during business hours, 8 am to 5
pm Monday through Friday. When the automated attendant answers you will be given the option of dialing
your party direct or speaking with the operator.
AFTER BUSINESS HOURS
If you need emergency assistance due to equipment shutdown or malfunction, customer support personnel are
available 24 hours a day. Call Comwave at one of the numbers listed below; when the automated attendant
answers press 6, leave your name, company name, phone number, equipment model number(s), and a brief
description of the problem you’re encountering. When you hang up the system will automatically page the oncall technician who will then return your call in a timely manner. You can listen to the message prompt for
other options as well, however, for emergency assistance you MUST use option 6.
Thomcast Communications, Comwave Division
Crestwood Industrial Park, 395 Oakhill Road
Mountaintop, PA 18707
1-800-266-9283
USA & Canada
1-570-474-6751
International1 & USA
(Please note, as of 12/98, our area code changed from 717 to 570)
1-570-474-5469
FAX
(Please note, as of 12/98, our area code changed from 717 to 570)
COMMENTS/SUGGESTIONS
Please forward comments regarding documentation content and/or layout, or suggestions to improve Comwave
publications to ksimeone@thomcastcom.com.
EQUIPMENT RETURNS
If the equipment requires return for factory service, please follow the guidelines listed. Thomcast cannot be
held responsible for damaged equipment received due to improper packing; contact Thomcast with any
questions or concerns.
1. Contact Comwave: Call Comwave to report the problem and to obtain a “Return Authorization”
number2 (RA). This enables accurate tracking and identity of returned equipment for prompt and efficient
service.
2. Obtain packaging materials: Use original boxes and packing materials when returning any equipment.
This will safeguard against most in-transit damages. If original boxes and packing materials are not available,
contact Thomcast to obtain replacement materials prior to shipping, they are provided at a nominal cost.
3.
Pack equipment: Use original packing materials and directions provided. Most equipment is packed in a
box within another box; this varies with each product. Double boxing provides maximum protection.
Caution: Do not pack equipment using “PEANUTS” as filler it does NOT provide sufficient protection
during shipping. Rough handling by the carrier may cause permanent damage to the equipment.
Thomcast cannot be held responsible for damaged equipment received due to improper packing.
International calls must dial the country code before the phone number, i.e. 001-570-474-6751.
If you do not obtain an RA number prior to returning equipment Thomcast cannot be held responsible for delays in repair and return
time.
All information contained in this document is confidential and proprietary to THOMCAST and shall not be disclosed without the prior written permission of THOMCAST.
CREATED: KAS ............5/6/99
ECO #: 99-035, 3/25/99
CHECKED: DMW.............................................................. 1/18/99
Document #: DOC20-0001
RELEASED: PRC .............................................................. 1/18/99
REV: FEB.09.00
Return Packaging of the Power Amplifier Segment
COMWAVE DIVISION
RETURN PACKAGING OF THE POWER AMPLIFER SEGMENT
1.
Start with an empty power amplifier
segment box, shown in Figure 1. If
you don’t have one please inform
Comwave customer service when you
contact them for a return authorization
(RA) number, which you MUST do
prior to returning ANY equipment.
2.
Place the power amplifier segment into
the box, as shown in Figure 2. The
heatsink should always face up and the
connectors on the rear of the power
amp segment rest against the soft gray
foam for protection.
Figure 1: Empty power amplifier segment box.
3.
Fold the edges of the inner box in and
close.
4.
Place the inner box into the 4-pack
master (outer box), being sure to
include three empty power amplifier
boxes for a secure fit, as shown in
Figure 3. The power amplifier
segments are generally packed 4 per
master box and shipped. When
returning segment(s) please pack them
the same way, ALL boxes will be
returned to you. If you need to
assemble a master box, use 2” clear
box tape over the bottom seam, using
three layers to assure strength. Then
put 4 pieces of fiberglass strapping
tape over the edges.
REAR
HEATSINK
Figure 2: Boxed power amplifier segment.
All information contained in this document is confidential and proprietary to THOMCAST and shall not be disclosed without the prior written permission of THOMCAST.
CREATED: KAS ................................................................10/21/98
CHECKED: SB.................................................................. 10/22/98
Document #: DOC20-0003
RELEASED: DMW ........................................................... 10/22/98
REV: DEC.06.99 ECO #: 98-116
Return Packaging of the Power Amplifier Segment
COMWAVE DIVISION
5.
Close the 4-pack master box and seal
the top seam with 2” clear box tape,
using three layers to assure strength.
Then put 4 pieces of fiberglass
strapping tape over the edges. Clearly
mark the RA number on the outside of
the box before shipping.
Figure 3: Power amplifier segments ready to ship.
All information contained in this document is confidential and proprietary to THOMCAST and shall not be disclosed without the prior written permission of THOMCAST.
CREATED: KAS ................................................................10/21/98
CHECKED: SB.................................................................. 10/22/98
Document #: DOC20-0003
RELEASED: DMW ........................................................... 10/22/98
REV: DEC.06.99 ECO #: 98-116

---

Source Exif Data:

File Type                       : PDF
File Type Extension             : pdf
MIME Type                       : application/pdf
PDF Version                     : 1.3
Linearized                      : No
Creator                         : Microsoft Word - 10-0046 SD5000C
Create Date                     : 2000:02:16 11:31:32
Title                           : 10-0046 SD5000C.PDF
Author                          : KSimeone
Producer                        : Acrobat PDFWriter 4.0 for Windows NT
Modify Date                     : 2000:02:16 13:22:59-05:00
Page Count                      : 71

EXIF Metadata provided by EXIF.tools