Integrated Microwave Technologies 58MLT MicroLITE HD Transmitter Model NO. 58MLT User Manual M22 0005 00A MLT rev0p2D MANUAL WIP

Download:
Mirror Download [FCC.gov]
Document ID	1535613
Application ID	x2aUzlqyATGKMM9KxdrXIQ==
Document Description	User manual
Short Term Confidential	No
Permanent Confidential	No
Supercede	No
Document Type	User Manual
Display Format	Adobe Acrobat PDF - pdf
Filesize	41.41kB (517649 bits)
Date Submitted	2011-09-02 00:00:00
Date Available	2011-09-02 00:00:00
Creation Date	2011-08-17 16:33:11
Producing Software	GPL Ghostscript 8.71
Document Lastmod	2011-08-17 17:42:17
Document Title	M22-0005-00A.MLT.rev0p2D.MANUAL(WIP)
Document Creator	PDFCreator Version 1.0.0
Document Author:	hardym

MICROLITE TRANSMITTER
HD/SD COFDM Transmitter
User Manual
IMT PUBLICATION: M22-0005-00A, REV 0.2D
MicroLite Transmitter User Manual
Revision History
Date
May 16, 2011June 13, 2011
July 20, 2011
August 17. 2011
Revision
Modified By
Description
0.0D
DLA(MH)
Initial release to approvers
0.1D
0.2D
DLA / MH
MH
Ongoing updates and clarifications (WIP)
Added regulatory text (FCC and IC)
MICROLITE TRANSMITTER
User Manual
IMT Publication: M22-0005-00A
IMT, LLC.
200 International Drive
Mt. Olive, NJ, 07828, USA.
T +1 908 852 3700 F +1 908 813 0399
www.imt-solutions.com
We make every effort to ensure our documentation is as accurate and as complete as possible. In the event that you find any errors or
omissions, please contact Customer Tech Support at (908) 852-3700, or via email a service@nucomm.com.
© Copyrighted 2011 - IMT, LLC - Mount Olive, New Jersey 07828
Revision 0.2D
MicroLite Transmitter User Manual
CAUTION!
RISK OF ELECTRICAL SHOCK. DO
NOT REMOVE COVERS.

 Do not remove any covers

 Refer servicing to qualified
technicians only

 Disconnect all power before
servicing

 Read and perform all
instructions carefully

 Failure to follow suggested
instructions and guidelines may
void all warranties
PRUDENCE!
RISQUE DE CHOC ÉLECTRIQUE. NE
SUPPRIMEZ PAS LES COUVERTURES.

 Ne supprimez pas les couvertures

 Voir entretien à qualifiés Techniciens
seulement.

 Déconnectez tous les pouvoir avant
l'entretien.

 Lecture et effectuer toutes les instructions
attentivement.

 Échec de suivre les lignes directrices et les
instructions proposées peut-être annuler
toutes les garanties.
Revision 0.2D
MicroLite Transmitter User Manual
FCC STATEMENT
This equipment (FCC ID: I4U-58MLT) has been tested and found to comply with the limits
for a Class B digital device, pursuant to part 15 of the FCC Rules.
DÉCLARATION DE FAC
Cet équipement (FCC ID: I4U-58MLT) a été testé et de respecter les limites pour une classe
b dispositif numérique, conformément à la partie 15 des règles de la FCC.
FCC CAUTION/ PRUDENCE DE FAC
Any change or modification not approved by the party responsible for compliance could void the user’s authority to
operate this device.
This device requires professional installation.
For operation within 5.725 - 5.850 GHz frequency range, the maximum EIRP must be less than 36 dBm. The qualified
antenna types to be used with this device include:
Low Gain Collinear Omni Antenna (4.5dBi or 6 dBi)
This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) This device
may not cause harmful interference, and (2) this device must accept any interference received, including interference that
may cause undesired operation.
In order to maintain compliance with the FCC RF exposure guidelines, this device should be installed and operated with a
minimum distance of 20cm between the radiator, and the body of the operator and/or nearby persons.
Tout changement ou modification non approuvé par la partie responsable de la conformité pouvait annuler l'autorisation
de l'utilisateur pour l'exploitation de ce dispositif.
Ce dispositif nécessite l'installation professionnelle.
Pour l'opération au sein de la gamme de fréquences de 5.725-5.850 GHz, la pire maximale doit être inférieure à 36 dBm.
Les types d'antenne qualifiés pour être utilisé avec ce dispositif, citons :
Antenne Omni colinéaires faible Gain colinéaires Omni antenne (4.5dBi ou 6 dBi).
Cet appareil est conforme à la partie 15 des règles de la FCC. Opération est soumis à deux conditions suivantes: (1) ce
dispositif ne peut pas causer de brouillage préjudiciable, et (2) ce dispositif doit accepter toute ingérence a reçu, y
compris le brouillage qui peut provoquer l'opération non désirée.
Afin de maintenir la conformité avec les directives d'exposition RF FCC, ce dispositif doit être installé et exploité avec une
distance minimale de 20 cm entre le radiateur et le corps de l'opérateur ou à proximité de personnes.
Revision 0.2D
MicroLite Transmitter User Manual
IC Notice/:IC Avis
1. Under Industry Canada regulations, this radio transmitter may only operate using an antenna of a type
and maximum (or lesser) gain approved for the transmitter by Industry Canada. To reduce potential
radio interference to other users, the antenna type and its gain should be so chosen that the equivalent
isotropically radiated power (e.i.r.p.) is not more than that necessary for successful communication.
Conformément à la réglementation d'Industrie Canada, le présent émetteur radio peut fonctionner
avec une antenne d'un type et d'un gain maximal (ou inférieur) approuvé pour
l'émetteur par Industrie Canada. Dans le but de réduire les risques de brouillage radioélectrique
à l'intention des autres utilisateurs, il faut choisir le type d'antenne et son gain de sorte que la
puissance isotrope rayonnée équivalente (p.i.r.e.) ne dépasse pas l'intensité nécessaire à
l'établissement d'une communication satisfaisante.
2. This radio transmitter (IC: 9479A-58MLT) has been approved by Industry Canada to operate with the
antenna types listed below with the maximum permissible gain and required antenna impedance for
each antenna type indicated. Antenna types not included in this list, having a gain greater than the
maximum gain indicated for that type, are strictly prohibited for use with this device.
Le présent émetteur radio (identifier le dispositif par son numéro de certification ou son numéro de
modèle s'il fait partie du matériel de catégorie I) a été approuvé par Industrie Canada pour fonctionner
avec les types d'antenne énumérés ci-dessous et ayant un gain admissible maximal et l'impédance
requise pour chaque type d'antenne. Les types d'antenne non inclus dans cette liste, ou dont le gain est
supérieur au gain maximal indiqué, sont strictement interdits pour l'exploitation de l'émetteur.
Antenna Approved/Antenne approuvé
Type/Type
Max. Gain/Max. Gain
Collinear Omni
Antennas/Colinéaires
Omni antennes
6 dBi
Impedance/Impédance
50 Ω
3. This device complies with Industry Canada licence-exempt RSS standard(s). Operation is subject to the
following two conditions: (1) this device may not cause interference, and (2) this device must accept
any interference, including interference that may cause undesired operation of the device.
Le présent appareil est conforme aux CNR d'Industrie Canada applicables aux appareils radio exempts
de licence. L'exploitation est autorisée aux deux conditions suivantes : (1) l'appareil ne doit pas produire
de brouillage, et (2) l'utilisateur de l'appareil doit accepter tout brouillage radioélectrique subi, même si
le brouillage est susceptible d'en compromettre le fonctionnement.
4. In order to maintain compliance with the IC RF exposure guidelines, this device should be installed and
operated with a minimum distance of 20 cm between the radiator, and the body of the operator and/or
nearby persons.
Afin de maintenir la conformité avec les directives d'exposition RF IC, ce dispositif doit être installé et
exploité avec une distance minimale de 20 cm entre le radiateur et le corps de l'opérateur ou à
proximité de personnes.
Revision 0.2D
MicroLite Transmitter User Manual
Revision 0.2D
MicroLite Transmitter User Manual
MICROLITE TRANSMITTER
User Manual
Contents
Introduction ______________________________________________________________________ 10
1.1
MICROLITE Description _____________________________________________________________ 12
2.1
Application Diagram __________________________________________________________ 13
2.2
Theory of Operation __________________________________________________________ 14
2.2.1
2.2.2
2.2.3
2.2.4
2.2.5
2.2.6
2.3
2.3.1
2.3.2
Manual Overview _____________________________________________________________ 10
Power, Remote Control, and User Data Interface Connector ________________________________ 15
Audio and Video Input Connectors _______________________________________________________ 15
User Data Input _______________________________________________________________________ 15
MPEG4 Encoder (H.264 Part 10) _________________________________________________________ 15
COFDM Modulator _____________________________________________________________________ 15
RF Transmitter ________________________________________________________________________ 15
Remote Control and Firmware ________________________________________________ 16
Remote Control via Serial Interface ______________________________________________________ 16
Firmware updates______________________________________________________________________ 16
Specifications _____________________________________________________________________ 18
3.1
RF ____________________________________________________________________________ 18
3.2
Modulation Modes ____________________________________________________________ 18
3.3
Video Modes supported _______________________________________________________ 18
3.4
MPEG Encoder ________________________________________________________________ 19
3.5
System _______________________________________________________________________ 19
3.6
Power Requirements _________________________________________________________ 19
3.7
Environmental ________________________________________________________________ 20
3.8
Physical Specifications ________________________________________________________ 20
3.9
Connectors ___________________________________________________________________ 20
Installation _______________________________________________________________________ 22
4.1
Overview _____________________________________________________________________ 22
4.2
Identifying MICROLITE Physical Features and Interfaces _______________________ 23
4.3
Physical Installation __________________________________________________________ 24
4.4
Connect External Signals _____________________________________________________ 26
4.4.1
4.4.2
4.4.3
4.4.4
4.4.5
Audio and Video _______________________________________________________________________ 26
Power and Control _____________________________________________________________________ 26
User Data (EXT connector) ______________________________________________________________ 26
ASI In (EXT connector) _________________________________________________________________ 26
ASI Out (EXT connector) _______________________________________________________________ 26
Revision 0.2D
MicroLite Transmitter User Manual
4.5
Antenna Installation __________________________________________________________ 26
4.6
Connector Pin Assignment Information _______________________________________ 27
4.6.1
4.6.2
4.6.3
Power/Control Connector Pinout _________________________________________________________ 27
Audio Input Connectors Pinout __________________________________________________________ 28
Ext Connector Pinout ___________________________________________________________________ 28
Operation __________________________________________________________________________ 30
5.1
Power Up the MICROLITE ______________________________________________________ 30
5.2
Pre-Configure the MICROLITE user options ___________________________________ 30
5.3
Button and LED Interface _____________________________________________________ 30
5.4
Select User Level Settings ____________________________________________________ 31
5.5
Put the unit in Transmit Mode_________________________________________________ 32
5.6
Select Power Level ___________________________________________________________ 32
5.7
Verify Operation ______________________________________________________________ 32
5.8
Using the MICROLITE to Transmit Audio and Video Signals______________________ 32
5.9
Using the MICROLITE To Transmit User Data ___________________________________ 32
5.10
Using alternate/custom controllers ___________________________________________ 33
5.10.1
5.10.2
Serial Interface Rate, Parity, and Stop Bit Specifications _________________________________ 33
Command and Response Packet Formats_______________________________________________ 33
5.11
Troubleshooting ______________________________________________________________ 34
5.12
Maintenance Information _____________________________________________________ 34
Figures
Figure 2-1: Application Diagram, with optional PC. _____________________________________________________ 13
Figure 2-2: Internal Block Diagram ___________________________________________________________________ 14
Figure 4-1: MICROLITE Transmitter User Interface ______________________________________________________ 23
Figure 4-2: MLT Connectors ________________________________________________________________________ 23
Figure 4-3: Detail of Fan Openings ___________________________________________________________________ 24
Figure 4-4: MICROLITE Outline Drawings (Dimensions in Inches) _________________________________________ 25
Figure 4-5: Power/Control Connector Detail ___________________________________________________________ 27
Figure 4-6: Audio Connector Detail___________________________________________________________________ 28
Figure 4-7: EXT Connector Detail ____________________________________________________________________ 28
Figure 5-1: Control and Monitoring User Interface______________________________________________________ 31
Tables
Table 2-1: Summary of High Level Features and Benefits_______________________________________________ 12
Table 3-1: Frequency Band Coverage ________________________________________________________________ 18
Table 3-2: Environmental Specs _____________________________________________________________________ 20
Table 4-1: MicroLite Connectors _____________________________________________________________________ 23
Table 4-2: Power and Control Cables ________________________________________________________________ 26
Table 4-3: Power/Control Pinout _____________________________________________________________________ 27
Table 4-4: Audio 1 & 2 Pinout _______________________________________________________________________ 28
Table 4-5: Ext Pinout _______________________________________________________________________________ 28
Table 5-1: Table of Troubleshooting Tips _____________________________________________________________ 34
Revision 0.2D
MicroLite Transmitter User Manual
Revision 0.2D
MicroLite Transmitter User Manual
1 Introduction
This document is a user manual for RF CENTRAL’s MICROLITE microwave video transmitter. The
MICROLITE is a compact transmitter that digitally encodes video signals and transmits them using
COFDM modulation over microwave frequencies using secure methods. The unit accepts either HDSDI, SD-SDI, or composite video inputs in NTSC or PAL format, and can also accept User Data (e.g.
NMEA GPS sentences) for transmission along with the main input signals. It has a built in MPEG4
(H.264 part 10 AVC) encoder and COFDM modulator. The MICROLITE is housed in an ultra compact,
lightweight enclosure that can be used in harsh environments.
Throughout this manual, the product is referred to as the “MICROLITE”, the “MICROLITE Transmitter”,
“MLT”, “MicroLite TX”, or simply the “transmitter.”
1.1 Manual Overview
The contents of this manual are as follows:
Chapter 2 – Describes the theory of operation and the features of the MICROLITE TRANSMITTER.
Chapter 3 – Contains a list of the MICROLITE TRANSMITTER specifications. The specifications
include transmitter feature specifications, power requirements, environmental
specifications, and I/O specifications.
Chapter 4 – Explains how to install the MICROLITE TRANSMITTER.
Chapter 5 – Describes operating procedures for the MICROLITE TRANSMITTER. It also contains
an overview of the MICROLITE TRANSMITTER programmable serial interface.
The rear of this manual contains warranty and repair information.
Revision 0.2D
10
MicroLite Transmitter User Manual
Revision 0.2D
11
MicroLite Transmitter User Manual
2 MICROLITE Description
This chapter describes the MICROLITE transmitter theory of operation, features, and benefits. It also
contains a block diagram of the MICROLITE transmitter circuitry and a typical application example.
The MicroLite Transmitter has external connectors and features direct plug-in compatibility with off
the shelf equipment using industry standard interfaces.
The MICROLITE Transmitter internal circuitry compresses the audio and video signals, and organizes
the compressed data into ISO digital video transport streams. The transmitter uses COFDM modulation
and transmits at microwave frequencies in the specific band(s) supported by the unit.
Though the unit ships pre-configured, a graphical user interface that runs on a PC is available to
modify the operating parameters. Optionally, custom software written to implement the RS232
command set may be used. Refer to Chapter 5, “Operation” for more information.
IMT has the ability, should the need ever arise, to provide the user with firmware files and instructions
for local firmware installation, such as for feature upgrades, etc.
Table 2-1: Summary of High Level Features and Benefits
Feature
Benefit
COFDM Microwave Digital Video Transmitter
Microwave output frequencies in multiple bands.
User orderable frequency band options. User
programmable channels and offsets within band.
Compatible with advanced video cameras.
Compatible with industry standard SD video
cameras.
Direct audio input option for use with video
signals that do not contain embedded audio.
Industry standard compliant video compression.
Implements latest algorithms for high quality.
Data can be transmitted along with audio and
video to the receiver.
Convenient menu and button based graphical user
interface for Windows PC’s.
Can be used to program the preset settings on the
top panel.
GUI uses MicroLite RS-232 remote control serial
port.
Fits in small form factor applications.
Can be used at both high and low temperature
and humidity.
Multiple Output Frequencies
ASI, HD-SDI, and SD-SDI Inputs
NTSC or PAL Composite Video Inputs
Stereo Audio Line Inputs
MPEG4 (H.264 Part 10) Encoder
User Data Channel
Remote Control GUI for Programming the
MicroLite
Compact Housing
Operates in Harsh Environments
Revision 0.2D
12
MicroLite Transmitter User Manual
2.1 Application Diagram
Typically the MicroLite Transmitter is simply camera mounted. However, more complex applications
are possible per user requirements. Figure 2-1 shows a non-typical MICROLITE Transmitter
application, which includes a PC for configuration.
The MICROLITE TX may be programmed by a PC or host processor while connected in the application,
or it may be pre-configured and installed in the application without any programming required during
operation. The latter approach can save expense in cost sensitive applications.
Commonly used configurations can be set up and stored in the MICROLITE memory as “preset”
configurations. Up to 12 presets can be stored. Once presets have been stored, configurations can be
recalled using the front panel as well as the program interface.
Figure 2-1: Application Diagram, with optional PC.
Revision 0.2D
13
MicroLite Transmitter User Manual
2.2 Theory of Operation
Major blocks in the MICROLITE TX include:
• Video Input Interfaces - ASI or HD-SDI, SD-SDI; NTSC or PAL
• Stereo Audio Input Interface
• MPEG4 Video Compression Circuit
• COFDM Modulator
• Microwave Transmitter and Antenna Connector
• Programmers Serial Interface for Remote Control Purposes
• Internal Microprocessor and Memory
• Power Circuitry
Figure 2-2: Internal Block Diagram
Revision 0.2D
14
MicroLite Transmitter User Manual
2.2.1 Power, Remote Control, and User Data Interface Connector
The MicroLite Transmitter Power, Remote Control, and User Data interface includes power and
ground connections plus two RS-232 serial port interfaces.
2.2.2 Audio and Video Input Connectors
The MICROLITE TX has two analog audio inputs that can be used for stereo audio and HD/SD-SDI or
NTSC/PAL video input. Refer to Chapter 3 for specifications of these signals.
2.2.3 User Data Input
A data channel may be transmitted along with the audio and video information. The data channel is
accessed through a RS-232 serial interface in the EXT connector. Examples of supported User Data
may include NMEA GPS sentences and simplex RS232.
2.2.4 MPEG4 Encoder (H.264 Part 10)
The MLT compresses the input video signal before modulation and transmission to reduce bandwidth.
The MICROLITE TX contains a built-in MPEG4 (H.264 part 10) encoder for this purpose. The
MicroLite TX features the latest compression methods utilizing B frames for more accurate encoding
of compressed video signals.
2.2.5 COFDM Modulator
The COFDM modulator receives data from the output of the MPEG4 AVC encoder through a circuit
that enhances the security of transmissions.
The MICROLITE TX is able to transmit data at high data rates and with low error rates using COFDM
modulation techniques. The data rate used by the transmitter depends upon the CODFM modulator
settings used.
Refer to Chapter 5, “Operation” for more information.
2.2.6 RF Transmitter
The MICROLITE microwave transmitter circuits mix the signal to the desired microwave frequency.
The signal is filtered and boosted through a low noise output amplifier.
The MICROLITE TX has a single SMA style antenna connector. The output impedance of the antenna
connector is 50 ohms. Note: On 5.8GHz models, the connector is RP-SMA due to FCC requirements.
Refer to Chapter 3, “Specifications” for frequency band and channel tuning specifications.
Revision 0.2D
15
MicroLite Transmitter User Manual
2.3 Remote Control and Firmware
2.3.1 Remote Control via Serial Interface
An RS-232 command set is implemented to allow remote control of all configuration options, as well
as monitoring of internal status and settings. Commands and responses are sent via the RS-232 serial
interface located on the Power/Control connector.
Our “Nano Controller” GUI is available for controlling the unit via the RS-232 serial interface. Any
Windows compatible computer running Windows XP or Vista with 500 MB of memory and 1 GHz
Pentium or above can be used. Refer to Chapter 5, “Operation” for more information.
Optionally, users can create custom control interfaces as required to suit their applications. The RS-232
command set, or “remote protocol”, is available upon request for this purpose.
2.3.2 Firmware updates
The unit firmware may be updated via the USB interface on the Power/Control connector, using our
NanoTx Programmer software. A programming cable (IMT part number 922-B963-01A-R, or
equivalent) is required. Contact IMT Tech Support for additional details.
Revision 0.2D
16
MicroLite Transmitter User Manual
Revision 0.2D
17
MicroLite Transmitter User Manual
3 Specifications
3.1 RF
Table 3-1: Frequency Band Coverage
Frequency
RF Power
Base Part Number
(GHz)
(dBm)
23MLT-23-U3-C3
2.200-2.400
23
58MLT-20-U3-C3
5.725-5.850
20
DC Power
(W)
13
15
Tuning step size ........................................................ 1 MHz step size
Frequency stability..................................................... ± 10ppm
Standby mode ............................................................ No RF output
Normal ...................................................................... Instant on-frequency transmission
3.2 Modulation Modes
Modulation 1
• Format: ........................................................... COFDM (DVB-T)
• Carriers: ......................................................... 2K
• Constellation: ................................................. QPSK, 16QAM
• Code Rate: ..................................................... 1/2, 2/3, 3/4, 5/6, 7/8
• Guard Interval: ............................................... 1/32, 1/16, 1/8, 1/4
• Bandwidth: ..................................................... 6 MHz, 8 MHz
3.3 Video Modes supported
Video Mode
Supported
HD-SDI Formats
1080i/60
1080i/59.94
1080i/50
1080/25p
1080/24p
1080/23.98p
1080/23.98pSf
720/60p
720/59.94p
720/50p
720/24p
720/23.98p
NO
Yes
YES
NO
YES
YES
NO
NO
YES
YES
YES
YES
SD-SDI Formats
NTSC
PAL
YES
YES
Composite
NTSC
PAL
Yes
Yes
Revision 0.2D
18
MicroLite Transmitter User Manual
3.4 MPEG Encoder
Standard ................................................................... MPEG-4 Part 10 / H.264 AVC
Video
• Video Coding ................................................. AVC
• Video Input: ................................................... Composite
• NTSC: ........................................................... 720 x 480(4:2:0)
• PAL: .............................................................. 720 x 576(4:2:0)
• SD-SDI input: ................................................ ANSI/SMPTE 259M
• HD-SDI Input: ............................................... ANSI/SMPTE 292M
Audio
• Audio Coding: ............................................... ISO/IEC 11172-3(Layer II)
• Audio Sample Rate: ....................................... 48Khz
• Audio Channels: ........................................... 1 Stereo, 2Mono Standard
• Audio Input: ................................................... Line; Single ended 1Vp-p (nom.) into 10K Ohms
(-12dB to +50dB gain)
................................................................................... Mic, (-12dB to +50dB gain); 10K Ohms
5v Phantom power or Ext. Bias
................................................................................... De-embedded from SDI
• Tone .............................................................. (-10dBfs/8dBm) Level Adj. (-10-26dBfs)
3.5 System
•
•
•
•
•
•
•
•
Video Present: ................................................ Remote Standby/Test Generator Selectable
Test Generator (Dynamic): ........................... SMPTE CB(NTSC)/100% CB(PAL)
16 Character ID (Match SDT Service name)
1.0 and 1.2kHz Tones
ASI input:....................................................... Rate converted from 0mpbs-Max modulation rate
PCR Retime stamp
User Data: ...................................................... RS232 Side channel (300-115K Baud)
Remote Control:............................................. RS232
Local Control: ................................................ Key Board
3.6 Power Requirements
•
•
Input range: DC: ............................................ +9 to +18
Power consumption: ..................................... See table above
Revision 0.2D
19
MicroLite Transmitter User Manual
3.7 Environmental
Table 3-2: Environmental Specs
Item
Specification
Temperature Range,
Operational, Bottom Surface
Temperature Range, Storage
Humidity
Altitude, Operating
Altitude, Storage
–10° to +50°C (Base plate temperature. The bottom surface of the MICROLITE
must be maintained within the temperature range listed here.)
–40° to +80°C
0% to 95% RH, non-condensing
20,000ft (6,000m) maximum
50,000ft (15,000m) maximum
3.8 Physical Specifications
Size: .......................................................................... 3.06” x 0.8” x 2.44” (excluding connectors)
Volume: .................................................................... 3.51 in3
Weight: ..................................................................... 0.16 lbs (73 g)
3.9 Connectors
•
•
•
•
•
Power, RS232 Control: L .............................. Lemo, 7 pin
BNC Input: .................................................... Composite, HD-SDI, SD-SDI, or ASI Input
Left and Right Audio: ................................... 4pin Telocate
ASI Input B, ASI Output, User Data: ........... Lemo, 5 pin
RF Output: .................................................... 50 Ohm RP-SMA (due to FCC requirement)
Connector Part Numbers:
5 pin Lemo (on TX) ................................................... ECG.0B.305.CLN
IMT PN .......................................................... 512-F3022-005-R
5 pin Lemo (mating) .................................................. FGG.0B.305.CLAD52
IMT PN .......................................................... 512-F3022-005-R
7 pin Lemo (on TX) ................................................... ECG.0B.307.CLN
IMT PN .......................................................... 512-F3022-007-R
7 pin Lemo (mating) .................................................. FGG.0B.307.CLAD52
IMT PN .......................................................... 512-F3022-007-R
Revision 0.2D
20
MicroLite Transmitter User Manual
Revision 0.2D
21
MicroLite Transmitter User Manual
4 Installation
This chapter contains steps for installing the MicroLite transmitter in typical environments where it
may be used.
4.1 Overview
The MICROLITE Transmitter is typically camera mounted in a standalone system containing onlya
camera and power supply. MICROLITE applications may also contain a host processor that is used in
the field to re-configure settings.
Revision 0.2D
22
MicroLite Transmitter User Manual
4.2 Identifying MICROLITE Physical Features and Interfaces
Figure 4-1: MICROLITE Transmitter User Interface
Figure 4-2: MLT Connectors
Table 4-1: MicroLite Connectors
Connector
(from left above)
Label on Unit
Description
Lemo 7 pin
Power & Control
Power, USB, RS-232 Remote Control
Interface
Telocate
Audio Left
Audio Line Input
Telocate
Audio Right
Audio Line Input
Lemo 5 pin
Ext
BNC
Video & SDI
Revision 0.2D
ASI input, ASI Output, User Data, and USB
Composite NTSC or PAL Input,
HD-SDI, SD-SDI Input
23
MicroLite Transmitter User Manual
______________________________________________________________
! WARNING – DO NOT OPEN THE MICROLITE
The MICROLITE Transmitter contains no user serviceable parts. Do not open the
MICROLITE housing. Failure to comply will result in voiding of the warranty.
______________________________________________________________
4.3 Physical Installation
Note: The MicroLite Transmitter is typically camera mounted in a standalone application, however
mounting in a more complex rig or housing may be desired per individual requirements. In such cases,
the user should be aware that the MLT is configured via the programmable serial interface. Should you
desire to program the unit while in your application, then you r application design must provide a
means to connect to the serial interface. If your application cannot support a means to connect to the
serial interface, then you must pre-configure the unit prior to installation. Refer to Section 5.
The MICROLITE TX can be mounted using the four screw holes located on the corners of the housing,
using four #2-56 screws. Tighten the four screws gradually in rotation, without applying excess force
on one before starting the others.
The MICROLITE TX requires installation using proper thermal dissipation methods. During operation,
energy isdissipated to the outside environment, especially on the lower surface of the MICROLITE TX.
The bottom surface of the MicroLite TX must be kept at a temperature within the operating
temperature range specified in Chapter 3.
The unit has an internal fan and the fan openings must not be blocked.
The unit should not be operated inside another enclosure unless sufficient cooling is provided that the
case temperature is within the range specified in Chapter 3.
Fan Openings (on all sides of unit)
Figure 4-3: Detail of Fan Openings
Revision 0.2D
24
MicroLite Transmitter User Manual
Figure 4-4: MICROLITE Outline Drawings (Dimensions in Inches)
Revision 0.2D
25
MicroLite Transmitter User Manual
4.4 Connect External Signals
The MICROLITE connectors include the following major interfaces:
• Power and Ground Plus RS-232 programming interface
• Video Input Connector Accepts Composite Video, ASI, or SDI with appropriate cables.
• Analog Audio 1 and 2 Line Inputs
• User Data
4.4.1 Audio and Video
Connect a video source to the appropriate video input. Connect audio sources to the two analog audio
line inputs.
4.4.2 Power and Control
Connect an appropriate DC power source to the Power/Control connector. The power source
requirements are listed in Chapter 3, Specifications.
The Power/Control connector also includes an RS-232 interface for connection to a PC or host
processor for programming the unit. A cable that supports both power and control is required in order
to program or pre-configure the unit.
IMT has multiple cables to enable flexibility. Any Source cable may be used with any Input cable.
Table 4-2: Power and Control Cables
IMT part #
Cable Description
CableType
922-B964-01A-R
7pin LEMO to Tamiya Male connector
Input cable
922-B962-01A-R
7pin LEMO to Tamiya Male connector, w/DB9
Input cable (w/Control)
922-B973-01A-R
904-P088-00A-R
Anton Bauer D-tap to Tamiya Female connector
12vDC Power Supply with Tamiya Female connector
Source cable
Source cable
4.4.3 User Data (EXT connector)
If required, connect suitable User Data input cable to EXT. Cables are available from IMT.
4.4.4 ASI In (EXT connector)
If required, connect suitable ASI input cable to EXT. IMT part# 921-B379-01A-R (or equivalent)
4.4.5 ASI Out (EXT connector)
If required, connect suitable ASI output cable to EXT. IMT part# 921-B380-01A-R (or equivalent)
4.5 Antenna Installation
Connect a suitable antenna directly to the SMA antenna connector, or via a suitable 50 ohm cable.
Before applying power: Ensure proper antenna termination on RF output.
Revision 0.2D
26
MicroLite Transmitter User Manual
4.6 Connector Pin Assignment Information
4.6.1 Power/Control Connector Pinout
Table 4-3: Power/Control Pinout
Pin
Function
+12VDC
RS232 RX
USB DM
USB DP
RS232 TX
USB POWER
GROUND
Notes
Figure 4-5: Power/Control Connector Detail
Revision 0.2D
27
MicroLite Transmitter User Manual
4.6.2 Audio Input Connectors Pinout
Table 4-4: Audio 1 & 2 Pinout
Pin
Function
Notes
LINE SELECT
+5V MIC BIAS
AUDIO IN
Audio line input.
GROUND
Connected internally to signal & chassis ground
Figure 4-6: Audio Connector Detail
4.6.3 Ext Connector Pinout
Table 4-5: Ext Pinout
Pin
Function
Notes
GROUND
ASI OUT
RX UserData
User Data INTO the unit
TX UserData
Not connected for User Data transmission
ASI IN
Figure 4-7: EXT Connector Detail
Revision 0.2D
28
MicroLite Transmitter User Manual
Revision 0.2D
29
MicroLite Transmitter User Manual
5 Operation
While this chapter contains basic information about the operation of the MicroLite transmitter, the
programming of the unit (including preset configuration) via the Nano Controller GUI is not covered.
Please refer to the “Nano Controller” manual (IMT Publication: M27-0001-00A) for detailed
information on how to program and configure the unit.
In this chapter you will find info on how to use the MicroLite transmitter to transmit video, audio, and
user data. At the end of the chapter you will find troubleshooting and maintenance information.
5.1 Power Up the MICROLITE
Before applying power: Ensure proper antenna termination on RF output connector.
Turn on the power to the overall system.
Note: The MICROLITE requires up to 20 seconds to complete its internal power up
sequence. Supply current will jump up in steps as internal circuits are powered. The final
DC supply current will settle after 20 seconds. The front panel led’s do not lite until the
power-up sequence is complete.
5.2 Pre-Configure the MICROLITE user options
The MICROLITE has a wide range of programmable settings. Before using the MICROLITE in your
application, you should pre-configure it to for the settings you want to use in your application.
Settings are selected and configured using the Nano Controller software, or custom third party
alternatives. Please refer to the Nano Controller documentation for details, or contact IMT Technical
Support.
5.3 Button and LED Interface
The MicroLite has several Buttons and LED’s on the front panel, which are used to perform basic
operation and view basic unit status. Any changes made via a remote control interface will be
reflected by the front panel LED’s.
Revision 0.2D
30
MicroLite Transmitter User Manual
Figure 5-1: Control and Monitoring User Interface
Buttons:
SET
Advances the unit through the presets. The 1-12 LED’s indicate in GREEN
which preset is currently active.
TX / STBY
Toggles between Transmit and Standby modes. The appropriate LED is lit.
HI / LOW
Toggles between High and Low Power modes. The appropriate LED is lit.
LED Off
Toggles all front panel LED’s OFF/ON
In addition to those mentioned above, the following LED indicators are provided.
ALARM Indicators:
Video Alarm The #16 LED will display SOLID YELLOW.
Low Battery The #15 LED will display SOLID YELLOW.
Over Temp
The #14 LED will display SOLID YELLOW.
Unit Fail
The #13 LED will display SOLID YELLOW.
5.4 Select User Level Settings
By use of the SET button, select an appropriate preset so that your MicroLite transmitter and suitable
receiver are on the same RF and modulation settings.
Revision 0.2D
31
MicroLite Transmitter User Manual
5.5 Put the unit in Transmit Mode
Press the TX / STBY toggle button to put the unit in Transmit mode. Pressing the button again will
put the unit in Standby mode (no RF output).
5.6 Select Power Level
Press the HI / LOW toggle button to select the power level desired. In HI mode, the unit will output its
full rated power. In LOW mode, the output will be approximately 6dB down from the HIGH power
output.
5.7 Verify Operation
Verify operation of the MICROLITE by one of the following methods:
(1) If your system contains a host processor capable of communicating with the MICROLITE via the
serial interface, use interrogation commands to check the status of the MICROLITE.
(2) Detect the transmitted signal using a spectrum analyzer.
(3) Using an appropriate receiver, verify that you are receiving audio and video from your
application setup.
5.8 Using the MICROLITE to Transmit Audio and Video Signals
The MICROLITE uses a COFDM modulation scheme. Receiver systems used with the MICROLITE must
be compatible and capable of receiving the type of video transport streams transmitted by the
MICROLITE. Compatible receivers include the RF Central MicroLite Receiver, the IMT SRx Receiver
and certain other IMT products. Contact IMT for more information.
When no video signal is present, the MICROLITE enters “Standby Mode.” When a video signal is
present, the MICROLITE automatically exits “Standby Mode” and resumes transmission. Standby mode
status is indicated on a faceplate user interface LED.
5.9 Using the MICROLITE To Transmit User Data
The User Data Interface can be used to packetize user data along with the main audio and video
information. The User Data can be received and output by compatible receivers, such as the MLR and
SRx (e.g.). The user data interface must be programmed using the MICROLITE programmable serial
interface.
Revision 0.2D
32
MicroLite Transmitter User Manual
5.10
Using alternate/custom controllers
The implementation of an RS-232 command set, or Remote Protocol, allows the use of customized
interfaces to perform virtually all unit operations, including:
• Configure Settings
• Query Status
The Remote Protocol consists of command and response messages, or packets. The internal CPU
handles interpretation of the packets to set unit parameters, and provide responses back through the
serial interface.
In addition to IMT’s Nano Controller, alternate control interfaces may be developed, or available from
third parties. Additionally, commands and responses may be entered and viewed manually using a
command terminal.
The Remote Protocol is available upon request from IMT.
5.10.1
Serial Interface Rate, Parity, and Stop Bit Specifications
Refer to the Remote Protocol for information about the baud rate, number of data bits, stop bits, and
flow control methods.
5.10.2
Command and Response Packet Formats
This section provides a brief introduction to the serial interface command and response packet formats.
The command packets use the following format:
NU  <##>

Where the fields are ASCII and are defined as follows:
NU
Literal
 Address of target (0x01 – 0xFF)
 Address of source (0x00 – 0xFF)
<##> Packet Length (Packet Length = Command Length + Data Length)
 Command (0x00-0xFF) – Different values are used for each command.
 Data (Hex Format) – Data values are encoded with a variety of meanings.
 (1’s complement of  to end of data)
 Carriage Return
 Line Feed
After a command packet is received, the unit returns a response packet. Response packets have the
same basic format as command packets, except that the source and destination are reversed, and the
command field specifies the type of response being sent.
Revision 0.2D
33
MicroLite Transmitter User Manual
5.11
Troubleshooting
Table 5-1: Table of Troubleshooting Tips
Problem
No video
Video Signal Reception Poor
MICROLITE Programmable
Serial Interface Does Not
Respond
5.12
Possible Explanations
Actions to Take
No Power
Check power source
Camera Malfunction
Try a different camera
Possible Receiver system issue
Verify that all modulation
parameters match at transmitter
and receiver.
Receiver not properly positioned Try improved location
No Power
Check power source
Host processor GUI settings
issues
Verify that the host processor
running a GUI interface for
programming the MICROLITE is
setup and operating correctly.
Maintenance Information
Follow these procedures when maintaining the device:
• Dry the device immediately if it comes into contact with water or other liquids. Warranty does
not cover liquid damage.
• Do not submerge the device or use it directly in rain.
• Use ESD Precautions whenever handling the device
• Do not touch electrical connections.
• Do not open the device. This voids the warranty.
• Keep the device clean by wiping with a soft, dry cloth. If necessary, dampen only using a
solution suitable for cleaning electronic devices. Warranty does not cover cleaning damage.
Revision 0.2D
34
MicroLite Transmitter User Manual
Revision 0.2D
35
MicroLite Transmitter User Manual
Proprietary Information and Disclaimer Notice
All information and graphic images contained within this manual are the sole property of IMT, LLC, and are
issued in the strictest of confidence. This material may not be reproduced, stored, copied, or converted in any
form, nor shall it be disclosed to others or used for manufacturing or any other purpose without the written
permission of authorized IMT personnel.
IMT has made every effort to ensure the accuracy of this material at the time of printing. However, as the
specifications, equipment, and this manual are subject to change without notice, IMT assumes no responsibility
or liability whatsoever for any errors or inaccuracies that may appear in this manual, or for any decisions based
on its use. This manual is supplied for informational purposes only and should not be construed as a
commitment by IMT.
Warranty
Equipment manufactured by IMT, LLC is warranted to meet all published specifications and to be free from
defects in material and workmanship within a period of two years from date of original shipment. The
company’s liability under this warranty is limited to:
•
•
Servicing or adjusting equipment.
Replacement of defective parts.
Any equipment returned to the factory shall have the freight paid for by the buyer.
Equipment showing damage by misuse, abnormal conditions of operation, or attempts to repair by other than
authorized service personnel shall be excluded from this warranty. IMT shall in no event be responsible for
incidental injury or property damage. Since IMT has no control over conditions of use, no warranty is made or
implied as to suitability for the customer’s intended use, beyond such performance specifications as are made
part of the purchase order. There are no warranties expressed or implied, except as stated herein. This
limitation on warranties shall not be modified by verbal representations.
Shipping Damage
Equipment shipped FOB IMT shall become the property of buyer upon delivery and receipt from carrier. Any
damage in shipment should be handled by the buyer directly with the carrier. Immediately request the carrier’s
inspection upon evidence of damage in shipment.
Field Service
IMT products are designed with easy access to components to facilitate service. However, some modules
cannot be service in the field. To prevent voiding of the warranty, please contact Tech Support before servicing
or making any repairs. The user is cautioned to read all module descriptions in this manual. Warnings are
included in the circuit descriptions and on certain modules themselves.
Replacement Modules
Troubleshooting to the component level is often not cost-effective and frequently impossible. Often the
practical method of effecting repairs is to substitute known good spare modules for suspect units. Replacement
modules for our standard product line are usually available.
Revision 0.2D
36
MicroLite Transmitter User Manual
Technical Support Information
Technical Support personnel are available to extend technical assistance to customers while installing,
operating, or troubleshooting IMT equipment. Please have your model number and serial number available.
Telephone
During IMT business hours, 8:30am - 5:30pm EST (-5 Hours, GMT), call:
US ........................................................... 908-852-3700
International ............................................ 001-1-908-852-3700
After hours, call:
US or International .................................. 888-531-3892
Email
Email address ....................................................... service@nucomm.com
Internet
Web address ......................................................... www.imt-solutions.com
Equipment Returns
If equipment cannot be successfully restored through telephone consultation, return to the factory may be
required. Loaner items may be available until the repaired items are returned.
For out-of-warranty equipment only: We evaluate all returned units, and then confers with the client on
corrective action. If no fault is found, or no corrective action is authorized, a diagnostic fee may be charged.
Prior to returning products to the factory, please obtain a return material authorization (RMA) number and
shipping instructions from Tech Support.
When returning equipment, it is very helpful to enclose a note containing the following:
•
RMA number.
•
Serial number.
•
A detailed description of the problem.
•
Name of an engineer or technician we may contact regarding problems encountered.
•
A “ship to” and “bill to” address.
Ship all returns to:
IMT, LLC
Attn: RMA# (your RMA number)
200 International Drive
Mt. Olive, NJ, 07828, USA
(908) 852-3700
For International returns:
In addition to the instructions above, when shipping internationally we recommend the use of a courier such as
Federal Express, UPS, etc, and that the goods be shipped DOOR-TO-DOOR PRE-PAID. This will reduce
Customs costs, handling charges and delays. Enclose all the information above, plus a statement that the
equipment was manufactured in the United States (the latter is needed to expedite customs processing).
Revision 0.2D
37
MicroLite Transmitter User Manual
IMT, LLC.
200 International Drive
Mt. Olive, NJ, 07828, USA.
T +1 908 852 3700 F +1 908 813 0399
www.imt-solutions.com
Revision 0.2D
38

File Type                       : PDF
File Type Extension             : pdf
MIME Type                       : application/pdf
PDF Version                     : 1.4
Linearized                      : Yes
XMP Toolkit                     : Adobe XMP Core 4.0-c321 44.398116, Tue Aug 04 2009 14:24:39
Create Date                     : 2011:08:17 16:33:11-04:00
Creator Tool                    : PDFCreator Version 1.0.0
Modify Date                     : 2011:08:17 17:42:17-04:00
Metadata Date                   : 2011:08:17 17:42:17-04:00
Format                          : application/pdf
Description                     : 
Creator                         : hardym
Title                           : M22-0005-00A.MLT.rev0p2D.MANUAL(WIP)
Keywords                        : 
Producer                        : GPL Ghostscript 8.71
Document ID                     : uuid:8896225d-709c-4d13-82bc-70b3994e13ec
Instance ID                     : uuid:48813d50-e3f9-4c89-98fa-ee4dc07ae7eb
Page Count                      : 38
Subject                         : 
Author                          : hardym