mkt-197 125 225 c ssidu rev 7 - ai-sat · and spectral regrowth performance. simple to operate ......

Rack-Mount Solid State Power AmplifiersCPI Solid Inside and Out

811 Hansen Way P.O. Box 51625, Palo Alto, CA 94303

tel: +1 (650) 846-3803 fax: +1 (650) 424-1744

e-mail: [email protected]/satcom

CPI-Built RF Brick InsideWith CPI-built RF brick inside and plenty of thermal margin, SSPA is rock-solid, highly effi cient and easy to maintain. Provides up to 125 or 225 watts of power in a 5.25" rack-mountable unit covering the 5.850 - 6.425 GHz frequency band.

Multi-Carrier Digital OperationHighly linear: excellent AM/PM, phase noise and spectral regrowth performance.

Simple to OperateUser-friendly microprocessor-controlled logic with integrated RS422/485 computer interface, digitally controlled attenuator, and optional Ethernet interface.

High Power SSPAs

Model S5CI Series 125 and 225 Watt C-band Solid State Power Amplifi ers—Effi cient and Compact With CPI Brick Inside.

Global ApplicationsMeets International Safety Standards EN-60950 and EN-60215, Electromagnetic Compatibility 2004/108/EC and Harmonic Standard EN-61000-3-2 to satisfy worldwide requirements.

Worldwide SupportBacked by over three decades of satellite communications experience, and CPI’s worldwide 24-hour customer support network that includes sixteen regional factoryservice centers.

Ra

ck

Mo

un

t S

olid

Sta

te

Po

we

r A

mp

lifie

rs

C-Band

C-B

an

d

C-Band

For more detailed information, please refer to the corresponding CPI Technical Description.

Note: Specifi cations may change without notice as a result of additional data or product refi nement.

Please contact CPI before using this information for system design.

MKT 197, ISSUE 8 05/08 PDF

O P T I O N S :

• 1 RU Remote Control Panel

• Redundant and Power Combined Subsystems

• L-Band BUC

• Extended Frequency Range (to 6.725 GHz)

• RF Input and Output Monitors

• Ethernet Interface

• DC Power Supply Redundancy Module

• External Receive Band Reject Filter

• High Power Transient Voltage Surge Suppressor (TVSS)

Certificate Number: 30515

Electrical (continued)

Group Delay 0.03 ns/MHz linear max. (in any 80 MHz band) 0.003 ns/MHz2 parabolic max.

1.0 ns pk-pk ripple max.

Primary Power 100-240 VAC ±10%, single phase; 47-63 Hz

Power Consumption 800 W typ. for 125 W SSPA;1500 W typ. for 225 W SSPA

Power Factor 0.95 min.

RF Output Monitor -55 dB ±3 nom. wrt output

Environmental (Operating)

Ambient Temperature 0°C to +50°C operating

Relative Humidity 95% non-condensing

Altitude 10,000 ft. with standard adiabatic derating of 2°C/1000 ft., operating;50,000 ft., non-operating

High Power TVSS Option Clamp Voltage 440 VDC (line to line protection); 560 VDC (line to ground protection) Energy Absorption 2 ms/250 J (line to line protection) Peak Current Shunt 10,000 A repetitive

Mechanical

Cooling Forced air with integral blower

RF Input Connection Type N female

RF Output Connection CPR-137 waveguide fl ange, grooved

RF Output Monitor Type N female

Dimensions (W x H x D) 19.0 x 5.25 x 26 in. (483 x 134 x 661 mm); 19.0 x 7.00 x 26 in. (483 x 178 x 661 mm) with DC Power Supply Redundancy Option

Weight 76 lbs (34.6 kg) typ., no options

SPECIFICATIONS, S5CI Rack-Mount SSPAElectrical

Frequency Range 5.850 to 6.425 GHz (to 6.725 GHz optional)

RF Output Saturated, min. 125 W (50.97 dBm) or 225 W (53.50 dBm)1

P1dB, min. 100 W (50.0 dBm) or 200 W (53.0 dBm)1

Small Signal Gain (at max. 70 dB min. (at max. gain setting)

Gain Adjustment Range 23 dB

Gain Setting Resolution 0.1 dB

Gain Stability Over -10°C to +50°C ±1.5 dB At constant temp. and drive ±0.25 dB

Small Signal Gain Slope ±0.04 dB/MHz max.

Small Signal Gain Variation ±0.3 dB pk-pk across any 40 MHz band; ±1.5 dB pk-pk across 575 MHz

Input VSWR 1.3:1 max.

Output VSWR 1.3:1 max.

3rd Order Intermod -25 dBc max. at 3dB total backoff from P1dB

Harmonic Output -60 dBc max. at P1dB

Spurious -60 dBc max. at P1 dB (-55 dBc w/ BUC option

Residual AM -50 dBc below 10 kHz-20 [1 +log F(kHz)] dBc, 10 kHz to 500 kHz-85 dBc above 500 kHz

Noise Power Density -80 dBW/4 kHz in transmit band, -135 dBW/4 kHz from 3.7 to 4.2 GHz

Phase Noise 10 dB below IESS phase noise profi le, max.

AM/PM Conversion 1.0°/dB max. at 3dB backoff from P1dB

Note 1: For 5.850 to 6.725 GHz option, output power is lower. Check technical description or contact your CPI representative for details.

Communications & Power Industries

811 Hansen WayPalo Alto, CA 94303 USA

Tel: +1 (650) 846-3803Fax: +1 (650) 424-1744

www.cpii.com/satcomTechnical Description

C-Band 125 and 225 Watt Solid State Indoor Power Amplifiers

Models S5CI Series

This document provides a detailed technical description of CPI’s Indoor 125 and 225 watt (Psat) C-Band Solid State Power Amplifiers (SSPA). The S5CI SSPA is designed specifically for indoor operation, providing uplink service in fixed satellite terminals, ‘fly-away’ earth stations and digital satellite news gathering (DSNG) vehicles. Advanced design and manufacturing techniques in the RF power module permit continuous, efficient and reliable operation across the entire 5.85-6.425 GHz frequency range (other C-band frequency ranges are also available). The S5CI incorporates the use of a microprocessor controller, simplifying the local and remote interfaces for monitor and control functions. These SSPAs are members of a comprehensive line of communication amplifiers comprising SSPAs, Traveling Wave Tube Amplifiers (TWTAs) and High Power Klystron Amplifiers (KPAs). All are designed specifically for service in satellite earth stations operating in standard frequency bands. CPI (formerly Varian Electron Device Group) has been active in the design and manufacture of microwave power amplifiers and related products for more than 30 years. CPI Satcom Division (formerly Varian MEP) was organized in the mid-1970s to bring together, under a single business operation, the strengths of existing groups involved with commercial Satcom and Industrial power amplifiers. Since then, CPI Satcom Division has provided thousands of fully integrated satellite uplink power amplifiers in the S, C, X, Ku, DBS and Ka-band frequency ranges to worldwide users and has become the leading supplier of these products.

TD-156 C-Band SSPA Model S5CI 05/08 Page 1 of 20

EQUIPMENT DESCRIPTION General The CPI Indoor SSPA is a self-contained amplifier designed for indoor installation. It is ready for uplink transmission when the output waveguide flange is terminated in the antenna and prime power is applied. The modular-designed unit consists of an RF power module “brick,” power supply modules, microprocessor controller and fans. The power supply assembly delivers regulated voltages to the RF power module and the microprocessor controller. The microprocessor carries out all of the internal and external monitor and control functions of the SSPA. The serial RS232 or RS-422/485 interface is available for remote monitor and control access through a host computer. Figures 3 is a detailed functional block diagram of the indoor SSPA and Figures 4 and 5 are block diagrams of the Power Supplies for each unit. Functional description of each major subassembly is provided below. The amplifier can easily be configured into a redundant subsystem or power combined system by adding the optional redundant switch kit or power combiner. RF Power Module The RF input signal is applied to the SSPA via a Type N connector on one end of the amplifier, to the input port of the RF brick. This RF brick is mounted on a heatsink that is installed inside the enclosure. Several DC fans create a pressure drop which forces cooling air in through the front grill, across the heatsink, and exiting via the rear panel. Inside the RF brick the input VSWR is limited to 1.3:1 across the entire frequency band. The RF input signal is amplified by a low-noise amplifier. The output of this amplifier is fed through a PIN diode attenuator, which provides external gain adjustment. The control signal to the PIN diode is generated by a digital to analog converter, controlled by the microprocessor. The RF signal is then applied to a high gain amplifier stage and then attenuated by a temperature-controlled PIN diode attenuator for gain compensation over the operating temperature range. The signal is boosted to the desired RF output level by power-combined, matched GaAs FET devices. The RF output power is then fed to a waveguide assembly consisting of a high power isolator, a forward power detector and a reverse power detector. The forward power detector provides an RF output sample to a type N connector located on the front of the amplifier enclosure that samples RF output power to a thermal load for forward output power metering. The reverse power detector also couples the reflected power to a thermal load for reflected power metering (removable as an option).


Power Supply Assembly The power supply assembly consists of one +10V high-power DC supply and one low-power +24V DC supply. The high power DC supply, which provides power to the RF power module, comprises an EMI filter, power factor correction module, AC/DC converter and a DC/DC module. The low voltage supply provides +24V to power the RF driver, microprocessor controller, DC fans and optional switching subsystem. The complete power supply assembly including fans and microprocessor controller, is housed in its own removable assembly. This allows for ease of assembly, maintenance and, if needed, replacement. All components are specified for stringent environmental specifications. This power supply is field-proven and highly efficient. AC input voltage is applied to the SSPA via a standard IEC320-C19 plug, and is specified at 100-240 VAC±10%, 47-64 Hz. Cooling Two DC fans are mounted at the front of the power supply assembly, and four other identical fans are located in front of the RF heatsink. Fan replacement is an easy process involving removing the lid of the unit. The fan assemblies are easily accessible with the removal of a few screws located on the underside of the unit. The fans themselves are attached with plastic snap rivets, making removal and re-installation effortless. Monitor and Control The microprocessor controller board is a single circuit card assembly with firmware capable of being externally upgraded without opening the unit (via hidden front panel accessible RS-232 connector or also by FTP over the optional Ethernet interface). This CCA also hosts the optional Ethernet functionality and creates the internal voltages (+12 V, +5 V, isolated +5 V, +/-12 V and variable 3-12 VDC) required by the various subsystems. The front panel provides a 4 line, graphical Vacuum Fluorescent Display (VFD) and keypad control with its own dedicated controller. This controller and the main controller communicated over a high speed CAN bus. Various system parameters are monitored by the main controller including:

• Power supply temperatures • CCA temperatures • RF brick temperatures • Inlet air temperature • Brick voltage • Brick current consumption


• Forward RF power • Reverse RF power • Fan rotational velocity • BUC lock (if optionally installed) • Internal communication buses’ integrity

When any one of these parameters exceeds the preset limit, an alarm is generated and displayed on the front panel. The alarm is also signaled by the discrete relay outputs and available for remote monitoring over the RS232/485 CIF interface or the optional Ethernet interface. If an unsafe operating condition is detected, the controller shuts off the RF power module and the fault status is displayed on the front panel. The fault is also signaled by the discrete relay outputs and available for remote monitoring over the RS232/485 CIF interface or the optional Ethernet interface. The controller also performs other important tasks when desired, such as user front panel interface; temperature compensation of gain; real time clock; and automatic output power control. The on-board real time clock provides a time-stamp for all output logs. External Interfaces The discrete outputs, redundant switch interface, redundant power supply control, Ethernet interface and serial interface (CIF) connectors are located on the rear panel of the chassis. All of the mating connectors are provided in the ship kit. The user can build the interconnect cables per the instructions in the operation manual or can purchase these cables in a specified length from CPI. It is recommended that these cables have a metal shield that can be terminated to the ground pin of the SSPA mating connector and that the outer jacket of these cables meets the indoor environmental specification requirements. The discrete output interface provides SSPA alarm and/or fault status in a Form C contact configuration. Most faults and alarms (including summary fault or alarm) are user mappable to any one of the four discrete relay outputs. See table on following page.


TABLE 1: DISCRETE OUTPUT MAPPABLE FAULTS AND ALARMS

Alarm/Fault Alarm Fault Condition

Inactive Relay is Inactive to Fault or Alarm

Summary Fault X Any Fault Condition

Summary Alarm X Any Alarm Condition

High RF Output Fault X Level User-defined

Low RF Output Fault X Level User-defined

High Reflected RF U U Level User-defined

Over Temp Fault X Temperature >75 ºC

AC Fault X Module Fault or AC in <85VAC

Bias Fault X Negative Bias Voltage <-8V or Temp >~83 ºC

High Drain Current X >120 A or 60 A (Factory Settable)

BUC Unlock U U BUC LO loss of lock

Brick Comm. Fault X RF Brick will not communicate with M&C

High RF Warning X Level User-defined

Low RF Warning X Level User-defined

High Temp Alarm X User Settable (70 ºC default)

High Hot Spot Temp. X Hot Spot >~78 ºC

Low Drain Voltage X <9.6 V (Factory Settable)

High Drain Voltage X >10.3 V (Factory Settable)

BBRAM Bad X RAM not Battery Backed

PSU Diode Temp Alarm X PSU Diode Temp > 95degC

PSU FET Temp Alarm X PSU FET Temp > 97degC

FAN Tach Alarm X Fan speed < 90% of Average Fan speed

Note: “X” indicates Factory Set, U indicates user selectable as a Fault or Alarm.

The RS232 connection can easily be hooked up to the serial port of any PC using three wires up to 10 feet long. For long distance communications, the RS422/485 connection should be used with a twisted-shield-pair cable to minimize cross-talk and signal degradation. The protocol structure can be set up through the remote panel and via the serial interface. The main features are 7-bit or 8-bit per data byte, ASCII or STX/ETX delimiter, baud rate and parity.


TABLE 2: SSPA IDU FAULTS AND ALARMS

Alarm/Fault Alarm Fault User Addressable?

Summary Fault X Y/N

Summary Alarm X Y/N

High RF Power X X Y

Low RF Power X X Y

High Reflected RF Fault/Alarm U U Y

Brick Over Temperature X X Y/N

Brick Under Temperature X X Y

High Hot Spot Temperature X Y/N

Cabinet Over Temperature X X Y

Cabinet Under Temperature X X Y

Inlet Air Over Temperature X X Y

Inlet Air Under Temperature X X Y

PSU Diode Over Temperature X X Y/N/Z

PSU FET Over Temperature X X Y/N/Z

AC Input Fault X N/Y

Bias Fault X N

Brick High Drain Current X N

Brick High Drain Voltage X X N

Brick Low Drain Voltage X X N

PSU High Drain Current X X N

PSU High Drain Voltage X X N

PSU Low Drain Voltage X X N

BUC LO Unlock U U Y/N

TVSS X Protection X N/Z

TVSS Y Protection X N/Z

Brick Communication Fault X N

Forward Sampler Communication X N

Reverse Sampler Communication X N

Front Panel CAN Communication X N

Main Board CAN Communication X N

PSU I2C Communication X N/Y

Fan Stall (low rpm) X X Y/Z

PSU Fan Stall (low rpm) X Y/N

BBRAM Bad X N

Note: X indicates Factory Set, U indicates user selectable as a Fault or Alarm.

Note: Y indicates user may be able to rectify. N indicates the operator needs to contact service. Z indicates a user field replaceable part.


PRODUCT SPECIFICATIONS The following specification limits and characteristics apply to the S5CI Series Indoor Solid State Power Amplifiers, unless otherwise specified.

Electrical Frequency 5.85 to 6.425 GHz (to 6.725 GHz optional) Output Power (flange) •Psat S5CI-A (5.85 – 6.425 GHz) 125 W min. (51.0 dBm) S5CI-C (5.85 – 6.725 GHz) 100 W min. (50.0 dBm) S5CI-B (5.85 – 6.425 GHz) 225 W min. (53.5 dBm) S5CI-D (5.85 – 6.725 GHz) 200 W min. (53.0 dBm) •P1dB S5CI-A (5.85 – 6.425 GHz) 100 W min. (50.0 dBm) S5CI-C (5.85 – 6.725 GHz) 60 W min. (49.0 dBm) S5CI-B (5.85 – 6.425 GHz) 200 W min. (53.0 dBm) S5CI-D (5.85 – 6.725 GHz) 160 W min. (53.05 dBm) Bandwidth 575 MHz (875 MHz with 6.725 GHz option) Small Signal Gain 70 dB min., 80 dB max. Gain Adjustment Range 23 dB min. Attenuator Accuracy ±1.0 dB Attenuator Step-Size 0.1 dB Small Signal Gain Slope 0.04 dB/MHz max. Small Signal Gain Variation •across any 40 MHz band ±0.3 dB pk-pk max. •across the 575 MHz band ±1.5 dB pk-pk max. Gain Stability •at -10°C to +50°C, constant drive ±1.5 dB over oper. temp. range. •at constant temperature and drive ±0.25 dB/24 hrs. max. (after 30 min. warmup) Input VSWR 1.3:1 max. Output VSWR 1.3:1 max.


Electrical Specifications, continued Load VSWR •full spec compliance 1.5 max. •operation without damage any value •continuous operation 2.0:1 max. 3rd Order Intermodulation -25 dBc max. at 3 dB OBO from P1dB AM/PM Conversion 2.0°/dB max. (at rated P1dB) 1.0°/dB max (at 3 dB total backoff from P1dB) Residual AM •below 10 kHz -50 dBc •10 to 500 kHz -20 [1.5+log F (kHz)] dBc •above 500 kHz -85 dBc Phase Noise 12 dB below IESS 308 continuous mask 10 Hz -42 dBc/Hz 100 Hz -72 dBc/Hz 1 kHz -82 dBc/Hz 10 kHz -92 dBc/Hz 100 kHz -102 dBc/Hz 1 MHz -102 dBc/Hz AC Fundamental -50 dBc Sum of All Spurs -47 dBc Spurious Output (at P1dB) -60 dBc max. (-55 dBc with BUC) Noise Power Density (at maximum gain) <-135 dBw/4 kHz, 3.4 to 4.2 GHz <-80 dBW/4 KHz, 5.850 – 6.425 GHz

<-110 dBw/4 kHz, 12.0 to 40.0 GHz

RF Power Detector Accuracy ±1.0 dBm, >32 dBm ±2.0 dBm, <32 dBm

RF Output Monitor -55 dBc ± 3 dB Group Delay 0.03 ns/MHz linear 0.003 ns/MHz2 parabolic max. 1.0 ns pk-pk ripple max. Primary Power 100-264 VAC ±10%, single phase 47-63 Hz


Electrical Specifications, continued Power Factor 0.95 min. (meets requirements of

Harmonics EMC Directive EN61000-3-2

Power Consumption S5CI 1080 VA typ. S5CI 1800 VA typ. Inrush Current Not to exceed 100% of nominal operating current EMC Per Directive 2004/108/EC

Environmental Specifications Ambient Temperature •operating -10° to +50°C •non-operating -40° to +75°C Relative Humidity 95% non-condensing Altitude •operating 10,000 ft. (3048 m) with standard adiabatic derating of 2°C/1,000 ft. (305 m) •non-operating 50,000 ft. (15,240 m) Shock and Vibration 20 g pk, 11 msec, 2 sine 2.1 grms, 5 to 500 Hz (per Section 514.4 MIL-STD-810E) Acoustic Noise 62 dBA measured 1 meter from front @25°C

Mechanical Specifications Cooling Forced air w/integral fans RF Input Connection Type N Female RF Output Connection CPR-137 Waveguide Flange grooved Threaded UNF 2B 10-32


Mechanical Specifications, continued RF I/O Monitors, BUC Input/Output Type N Female Switch, M&C, Remote Interfaces D-Connector AC Input IEC connector Dimensions (w x h x d) 19” x 5.25” x 26” (483 x 134 x 661 mm) Weight 80 lbs. max. (36 kg)

Safety Low Voltage Directive 2006/95/EC, EN60950-1:2001+A11, EN60215/A2:1994

Computer Interface (RS-232/422/485 CIF); Ethernet optional Monitor and control RS-232/422/485 Computer interface

protocol (CIF) M&C via PC browser over Ethernet

(optional) Monitor Front Panel Graphical Vacuum Fluorescent

Display (VFD) 4 Form C relay contacts which can be

mapped to any fault or warning front panel discrete LEDs

Control front panel touch pad Major Control Functions Transmit/Standby Attenuation Output RF Power level ALC/manual power control Fan Curve selection Manual switch control (if installed) Major Monitoring Functions RF output Power RF reflected Power Power supply unit Voltage PSU Current RF brick temperature


Computer Interface (RS-232/422/485 CIF), continued Major Monitoring Functions (cont’d) PSU temperature Inlet air temperature Cabinet air temperature Fan speed Event and Fault Logs Faults and alarms BUC lock status Switch Status (if installed)

Options • Remote Control Panel: 1 RU RS-485 CIF protocol • Internal Switch control & power for 1:1, 1:2, 1:1+1 redundancy and 1:1 power

combined CAN bus switch system • RF Input and Output monitoring ports (N connector) • L-Band Block Upconverter (BUC) (internal only reference and external MUX’d

reference) • BUC bypass, (allows both L band and C band input) • External 1RU N+1,2,3 Redundant power supply • Transient Voltage Surge Suppressor (compliant to EN61000-4-5 6 kV CM & 6 kV

DM) • Ethernet LAN remote control and monitor over PC browser and email users on

fault, also allows remote software update and fault/event log download by FTP • External Tx band filter • Exhaust Duct

Features • Compact 3RU rack height • Forward RF power monitor • Reverse RF power monitor • Real Time Clock • Local control and monitor via Graphical VFD display • Dedicated graphical display for PSU mode, RF mode or Fan Speed mode • Dedicated front panel LED’s to instantly display status • 2000 entry Event log with time/date stamp • 5 entry detailed Fault log with time/date stamp • Histogram display of long term trends for fan life of temperature conditions • Meets Safety Directive EN60215 and EN60950 as well as EMC Directive

2004/108/EC for Class A Group 1 Equipment. • Auto Fault Recycle.


Features, continued • Internal test points for easy maintenance. • MTTR < 1 hr. (brick/fan replacement) • RS232 or 422/485 (4 wire) remote CIF protocol. • 4 Discrete Relay outputs mapped to any fault or alarm • Automatic Power Level control • 23dB attenuation • Temperature gain compensation • Automatic variable speed cooling fans • User setup, device serial numbers and calibration data stored in transportable

memory for fast simple unit setup and repair • Removable power supply assembly for fast, easy repair

Specification Note Characteristics and performance limits are based on current data and are subject to change without notice. Please contact CPI Satcom Division before using this information for system design.

Options and Accessories Descriptions Following are brief descriptions of the options that are designed for use with the CPI Indoor SSPA. L band Block Upconverter (BUC) A block up converter (BUC) is a frequency converter that translates the industry-standard L-band frequency range up to the RF frequency of the host amplifier. The BUC is integrated into the amplifier's enclosure, freeing the user from having to incorporate it separately. This lowers the frequency of the amplifier's input so that the cabling to the amplifier can be much less expensive. The BUC translates the entire frequency range of the amplifier, allowing the user to eliminate the single transponder up converters used previously. This saves the customer the cost of multiple up converters, one for each transponder. CPI's BUCs use DRO (Dielectric Resonant Oscillators) which can operate independently, or be phase locked to a high-stability reference. The reference signal is brought into the amplifier by multiplexing the reference onto the cable carrying the input signals, so that no extra cables are required. Two BUC options are offered:

a- Multiplexed, external 10 MHz reference only b- Internal 10 MHz reference only.


Options and Accessories Descriptions, continued Extended frequency range Standard frequency range is 5.85-6.425 GHz. Extended frequency range 5.85-6.725 GHz is optional with power derating (200 W instead of 225 W Psat or 100 W instead of 125 W Psat). High Power TVSS (Transient Voltage Surge Suppressor) This option protects the power supply against line voltage surges. It is recommended for installations with frequent lightning strikes and for earth stations powered from power lines in certain industrial areas where instability may occur. Adding TVSS option allows the SSPA to comply with EN61000-4-5 Surge Immunity standard. (6kV surge common mode and 6kV surge differential mode, pass category A (no effect on unit)) The detail of the protection is provided below:

Line to Line & Line to Ground protection: Clamp voltage: 440 VDC Energy absorption 2ms surge: 250 J Peak current shunt: 10,000 A

RF input and/or output monitoring ports This option allows monitoring of input and/or output RF signals. The user can either monitor with a spectrum analyzer for qualitative analysis or a power meter for quantitative analysis. Ethernet interface With the Ethernet high speed interface, the operator can:

- benefit from a drag-and-drop FTP server for log download & firmware upload - send e-mails on alarms and/or faults - synchronize its clock with station (or network) time standard - benefit from HTTP interfaces:

plain browser limited-feature interface java-enabled full featured browser interface


Options and Accessories Descriptions, continued Ethernet interface (continued) Other benefits of Ethernet Interface include:

- Web page hosted by the SSPA unit - No need for a specific software running on the user PC, other than web browser - No need for the user to update software on the personal computer (HTML web

browser technology) - SSPA firmware automatically updates the Ethernet M&C application

Power Supply redundancy In its basic version, the rackmount SSPA includes a single power supply module in a 3RU form factor. With the optional power supply redundancy rack, the power supply modules are installed in a 1RU rack. The SSPA can be configured with 1, 2, 3 or 4 power supply modules. Each power supply module runs in parallel and the current load is shared between all modules, which extend the amplifier reliability. A single module is sufficient to run the amplifier. In case of failure, the SSPA sends an alarm and the power supply module can be replaced without switching off the unit (hot swappable).


Options and Accessories Descriptions, continued Remote Control Panel The Remote Control Panel is a 19 inch, rack-mountable unit, 1.75 inches high, that duplicates all of the controls and indicators of the main (local) control panel. The Remote Control Panel communicates with the amplifier via RS-485 serial interface. The panel requires a source of AC power, and includes the connectors for the interconnect cable from the amplifier. The interconnect cable can also be provided to a specified length as an additional option. The communication protocol is the CPI standard CIF protocol. Up to ten identical model IDUs can be connected and controlled by one remote control panel. Protection Switching and Power Combining The redundant switched and power combined switch options use the new CPI remote node switch system. Each waveguide switch contains its own microcontroller and can autonomously control the WG switch. All switches in the system and all amplifiers communicate together over a parallel connected CAN bus. All switch nodes receive power in parallel from all amplifiers, creating redundancy against a complete amplifier failure. Cabling is simplified as each node is daisy-chained to the next node and/or amplifier. This creates a mini interconnected network, or mesh, with each amplifier and each switch retaining its own autonomy. The nodes merely exchange status information with one another. In this way, once the mesh is configured, each node can control its own switch appropriately for any given switching topology (1:1, 1:2, 1:1+2 etc.), given any amplifier fault scenario. Any given switch system consists of input splitters (or input switch ganged to output WG switch) cabling, waveguide switch(es) and terminating loads. Typically the entire system, including amplifiers, is housed in a standard 19” telecom rack. The system provides protection against carrier drop out due to amplifier failure, with automatic transfer or manual operation, under local or remote control, as selected by the operator. An optional remote panel is available.

SUPPORT SERVICES Documentation CPI Satcom Division provides a standard commercial documentation package for all products. The standard package for satellite communications power amplifiers includes a comprehensive operation and maintenance manual, outline and interface drawings and acceptance test procedure/report (ATP). The technical manual provides instruction for unpacking and installation, initial set-up, calibration, normal operation, maintenance and repair of the equipment. The manual


SUPPORT SERVICES, continued includes schematic diagrams, block diagrams, and wiring information sufficient for use by maintenance personnel. Outline and interface drawings provide dimensions and the location and size of mounting holes, duct work, and waveguide, so that site preparation can be accomplished prior to receipt of the equipment. The ATP outlines the tests performed, circuit and test equipment used, and limits established. Space is provided for recording and certifying the test results, consolidating all related information in one document. The spare parts documentation package consists of a commercial recommended spare parts list to support the equipment for a one-to-two year period of operation. Training CPI Satcom Division offers optional training courses covering the installation, operation and maintenance of its equipment. The training course on high power amplifiers consists of lectures using training material, such as technical manuals and drawings, plus actual operation and adjustments demonstrated on the equipment. Small training groups (up to five students) assure the customer that each student has an opportunity to participate fully in demonstration activities. Courses may be conducted at the CPI factory or on-site. Course duration varies from two days to one or two weeks, depending on the scope of work agreed upon and the skill level of the students. Field Service The product support activity of CPI includes a staff of experienced, professional service technicians to assist users in maintaining full performance from their CPI power amplifiers. A telephone “hot line” permits access to one of these technicians on a 24-hours per day basis. Operational problems often can be diagnosed, corrective action prescribed, and normal operation restored through telephone consultation. Service technicians are prepared to give on-site assistance when desired. Product Support carries an inventory of spare parts that can be made ready for shipment within 24 hours. Coupled with a dedicated dial-in telephone line, this service is effective in aiding users to restore equipment to operational status with minimum downtime. Technical assistance and factory-approved replacement parts are also available at strategically located Regional Service Centers in the U.S.A., South America, Africa, Europe, India and the Pacific Rim.


Figure 1. 125 and 225 W C-Band SSPA Outline Dwg, Top, Side and Rear (ref. 01040500 rev 8 2/08)

Note: Before using this drawing for system design, please check with CPI to ensure that it is the latest revision

TD-156 C-Band SSPA Models S5CI 05/08 Page 17 of 20

3RU SSPA

1RU redundant power supply rack (optional)

Figure 2. 125 and 225 W C-Band SSPA Outline Dwg, Front Panel (ref. 01040500 rev 8 2/08) Note: Before using this drawing for system design, please check with CPI to ensure that it is the latest revision


Figure 3. Photo of SSPAs In Rack With Redundant Power Supply Module


Figure 3. Photo of SSPAs In Rack With Redundant Power Supply Module

Figure 4. SSPA Block Diagram (ref 0104484000 rev 4 10/07) Note: Before using this drawing for system design, please check with CPI to ensure that it is the latest revision


C

SPECIFICATIONS Cage Code

Sheet 1 of 4

Class

Size

DWG. NO.

Rev

02845

B

A

01044621

A

APPLICATION

REVISIONS

Next Assembly

Used On

LTR

DESCRIPTION

ECO

DATE

Approved

S5CI 1 Engineering Release A04459 12/19/07 JR

FAMILY CONFIGURATION AND OPTIONS, 125 and 225W C-BAND INDOOR SSPA

A complete model number consists of the base model number (S5CI), followed by a string of entries for each space listed in this configuration sheet. A ‘0’ must be filled in for each space where no option is required. For example, a 225W Psat, 5.85-6.425 GHz amplifier, operating at 100-240VAC +/- 10%, with RF power metering and has no other special options would be: Model number: S5CI Configuration :B0000000000A00 Basic IDU Chassis and Power Supply Assembly 0104461900

UNLESS OTHERWISE SPECIFIED

CONTRACT NUMBER

MATERIAL:

DIMENSIONS ARE IN INCHES

DR.

Andrew Leung Jan 23,07 SPEC NO.

DEC: 1PL + .1 2PL + .02

CHK

FINISH:

3PL + .005

FRAC + 1/64

APPD

Design Activity Approval

ANG + 1 deg

SUR

APPD

Customer Approval

C


Sheet 2 of 4

Class

Size

DWG. NO.

Rev

02845

B

A

01044621

A

NOTICE TO ALL PERSONS RECEIVING THIS DRAWING This drawing is only conditionally issued, and neither receipt nor possession thereof confers or transfers any right in or license to use, the subject matter of the drawing or any design or technical information show thereon, nor any right to reproduce this drawing or any part thereof except for the manufacture by vendor's of CPI and for manufacture under the Corporation's written license. No right to reproduce this drawing is granted unless by written agreement with or written permission from the Corporation.

Base model # S5CI Space Code Option Description Option Part Number 1 Freq. Band / Power Selection A 5.85-6.425 GHz, 125W Psat, 100W (P1dB) 0104461400 B 5.85-6.425 GHz, 225W Psat, 200W (P1dB) 0104461401 C 5.85-6.725 GHz,≈100W Psat, ≈?? (P1dB) 0104461402 D 5.85-6.725 GHz, ≈200W Psat, ≈?? (P1dB) 0104461403 (Code C and D not currently available) 2 Prime Power

0 Single phase 100-240 VAC +/- 10% (standard) None

3 Power Supply Redundancy

0 None (Standard) None A External PSU Rack + 1200W PSU module (N+0) 0104462800 B External PSU Rack + 1200W PSU module (N+1) 0104462801 C External PSU Rack + 1200W PSU module (N+2) 0104462802 D External PSU Rack + 1200W PSU module (N+3) 0104462803 E External PSU Rack + 1200W PSU module (N+0) 0104462900 F External PSU Rack + 1200W PSU module (N+1) 0104462901 G External PSU Rack + 1200W PSU module (N+2) 0104462902 H External PSU Rack + 1200W PSU module (N+3) 0104462903 (Option code A, B, C, D can only be used when space 1 code is B or D) (Option code E, F, G, H can only be used when space 1 code is A or C) 4 Internal Switch Controller 0 Not installed (Standard) None S Installed 0104469800 5 AC Line Transient Voltage Surge Suppressors(TVSS) 0 None (Standard) None L TVSS: 6 KV, 10,000A, 300 Joules, Common Mode 0104465000 & Differential Mode Protection (Option code L must be selected when space 3 code is not zero) 6 Dual Input (BUC By-pass) 0 None (Standard) None D Dual Input (L-Band, RF) 0104463500 (For use with BUC Option only, space 7 code is E or R)

C


Sheet 3 of 4

Class

Size

DWG. NO.

Rev

02845

B

A

01044621

A


7 L-Band BUC 0 None (Standard) None E Mux’d, External 10 MHz Ref. only 0104026100 5.85-6.725 GHz R INTL 10 MHz Ref. only 0104026200 5.85-6.725 GHz .

8 RF Forward and Reverse Power Metering 0 Forward and Reverse Power Meter Included None

X Reverse RF Power Sampler Removed None (No Reflected RF Power Protection) Y Forward RF Power Sampler Removed 0104552000 Z Both Forward and Reverse Power Sampler Removed 0104553000 Q Forward RF Power Coupler only T.B.D. (No Forward and Reverse Power Meter) 9 RF Sample Port

0 None (Standard) None N RF Input Monitor only 0104542000 U RF Output Monitor only 0104018900 (Space 8 code must not be Y or Z) B Both Input and Output Monitor 0104454800 (Space 8 code must not be Y or Z)

10 I/O Port 0 Standard (RS232/422/485) None E Add Ethernet Port 0104454900 11 Blank Front Panel 0 None (Standard Front Panel) None F Blank Front Panel 0104463600 12 Software Set A 2007 Software Set 0103246400

R 13 Reserved for future use 0 None (Standard) None 14 Reserved for future use 0 None (Standard) None

C


Sheet 4 of 4

Class

Size

DWG. NO.

Rev

02845

B

A

01044621

A


Accessories: 1RU Remote Control Panel 01032300-00 1RU Remote Control Cable (XX=Length in ft) 01032346-XX External Receive Band Filter 01020178-00 Assembly, Exhaust Duct 01044545-00

7.747.747.747.74

196.60196.60196.60196.60

2.922.922.922.92

74.1774.1774.1774.17

4.754.754.754.75

120.62120.62120.62120.62

7.007.007.007.00

177.80177.80177.80177.80

25.9425.9425.9425.94

658.98658.98658.98658.98

36.7836.7836.7836.78

[934.21][934.21][934.21][934.21]

OPTIONAL PLATE.OPTIONAL PLATE.OPTIONAL PLATE.OPTIONAL PLATE.SUPPLY WITH OPTIONAL EXHAUSTSUPPLY WITH OPTIONAL EXHAUSTSUPPLY WITH OPTIONAL EXHAUSTSUPPLY WITH OPTIONAL EXHAUSTAIR DUCT INSTALLED.AIR DUCT INSTALLED.AIR DUCT INSTALLED.AIR DUCT INSTALLED.

XXXX XXXX ------------

D. CHENGD. CHENGD. CHENGD. CHENG

OUTLINE DRAWING,OUTLINE DRAWING,OUTLINE DRAWING,OUTLINE DRAWING,SSPA IDUSSPA IDUSSPA IDUSSPA IDU

01040500010405000104050001040500

LEVEL 3LEVEL 3LEVEL 3LEVEL 3

-00-00-00-00

01040500

01040500

01040500

01040500

08MAR0708MAR0708MAR0708MAR07

D. CHENGD. CHENGD. CHENGD. CHENGREVISEDREVISEDREVISEDREVISED

D. CHENGD. CHENGD. CHENGD. CHENG 08MAR0708MAR0708MAR0708MAR07

A. LEUNGA. LEUNGA. LEUNGA. LEUNG 08MAR0708MAR0708MAR0708MAR07

J. RUSSELLJ. RUSSELLJ. RUSSELLJ. RUSSELL 08MAR0708MAR0708MAR0708MAR07

8888

8888 04FEB0804FEB0804FEB0804FEB08

7

A

8

B

6 5

7

C

D

8 6 5

THIS DOCUMENT IS THE PROPERTY OF COMMUNICATIONS & POWER INDUSTRIESREPRODUCTION OR RELEASE WITHOUT EXPRESS PERMISSION IS STRICTLY PROHIBITED.

IDENTIFYING NUMBERQTY

4APPLICATION

NEXT ASSEMBLYDASHNO.

USED ON

SPEC NO.

3 CAD=

FRAC ± 1/643PL ± .005

ANGLE ± 1°

MATERIAL

SURFACEFINISH

UNLESS OTHERWISE SPECIFIEDDIMENSIONS ARE IN INCHES

DECIMALS: 1PL ± .1 2PL ± .02

APPD

APPD

CHK

DR

DESCRIPTION CODE IDENT ITEM

SCALE: NTSSCALE: NTSSCALE: NTSSCALE: NTS SHEET 1 OF 3SHEET 1 OF 3SHEET 1 OF 3SHEET 1 OF 3

02845028450284502845

FSCM NO.

DDDD

SIZE DWG NO.

LIST OF MATERIALS

REV

A

D

DESCRIPTION

24

LTRZONE

3

C

REVISIONS

DATEECO APPROVED

1

D

1.161.161.161.16

29.4629.4629.4629.46

5.125.125.125.12

130.09130.09130.09130.09

10.4110.4110.4110.41

.41.41.41.41

19.8019.8019.8019.80

502.97502.97502.97502.97

RESERVED SPACE FORRESERVED SPACE FORRESERVED SPACE FORRESERVED SPACE FOROPTIONAL EXHAUST DUCTOPTIONAL EXHAUST DUCTOPTIONAL EXHAUST DUCTOPTIONAL EXHAUST DUCT

CABINET CHASSIS SLIDESCABINET CHASSIS SLIDESCABINET CHASSIS SLIDESCABINET CHASSIS SLIDES(GENERAL DEVICES P/N CTS-124)(GENERAL DEVICES P/N CTS-124)(GENERAL DEVICES P/N CTS-124)(GENERAL DEVICES P/N CTS-124)

RESERVED SPACE FORRESERVED SPACE FORRESERVED SPACE FORRESERVED SPACE FOROPTIONAL EXHAUST DUCTOPTIONAL EXHAUST DUCTOPTIONAL EXHAUST DUCTOPTIONAL EXHAUST DUCT

NOTES: UNLESS OTHERWISE SPECIFIEDNOTES: UNLESS OTHERWISE SPECIFIEDNOTES: UNLESS OTHERWISE SPECIFIEDNOTES: UNLESS OTHERWISE SPECIFIED

1.741.741.741.74

44.1744.1744.1744.17

3.203.203.203.20

.13.13.13.13

1.561.561.561.56

39.6639.6639.6639.66

.34.34.34.34

8.748.748.748.74

18.3118.3118.3118.31

465.12465.12465.12465.12

OUTLINE DRAWINGOUTLINE DRAWINGOUTLINE DRAWINGOUTLINE DRAWINGSSPA IDUSSPA IDUSSPA IDUSSPA IDU

01040500010405000104050001040500

LEVEL 3LEVEL 3LEVEL 3LEVEL 3

F:\

SEE SHEET 1SEE SHEET 1SEE SHEET 1SEE SHEET 1

SEE SHEET 1 FOR NOTES.SEE SHEET 1 FOR NOTES.SEE SHEET 1 FOR NOTES.SEE SHEET 1 FOR NOTES.

01040500

01040500

01040500

01040500

A

8 7

B

C

6 5 4

D

8 7 6 5 4

D

CAD=3SCALE: NTSSCALE: NTSSCALE: NTSSCALE: NTS SHEET 2 OF 3SHEET 2 OF 3SHEET 2 OF 3SHEET 2 OF 3

FSCM NO.

02845028450284502845

SIZE

DDWG NO. REV

A

C

3

ZONE LTR

REVISIONS

2

DESCRIPTION

1

ECO DATE APPROVED

D

CONNECTOR INTERFACESCONNECTOR INTERFACESCONNECTOR INTERFACESCONNECTOR INTERFACES

DEF. DEF. DEF. DEF. DES.DES.DES.DES.

CONNECTOR TYPECONNECTOR TYPECONNECTOR TYPECONNECTOR TYPE MATING CONNECTORMATING CONNECTORMATING CONNECTORMATING CONNECTOR FUNCTIONFUNCTIONFUNCTIONFUNCTION

J1J1J1J1 IEC-60320-C20 INLETIEC-60320-C20 INLETIEC-60320-C20 INLETIEC-60320-C20 INLETIEC-60320-C19 CABLE MOUNT IEC-60320-C19 CABLE MOUNT IEC-60320-C19 CABLE MOUNT IEC-60320-C19 CABLE MOUNT

RE-WIREABLERE-WIREABLERE-WIREABLERE-WIREABLE100-240VAC, 20A, 50-60Hz AC 100-240VAC, 20A, 50-60Hz AC 100-240VAC, 20A, 50-60Hz AC 100-240VAC, 20A, 50-60Hz AC

INPUT POWERINPUT POWERINPUT POWERINPUT POWER

J2J2J2J2 TYPE "N" FEMALETYPE "N" FEMALETYPE "N" FEMALETYPE "N" FEMALE TYPE "N" MALETYPE "N" MALETYPE "N" MALETYPE "N" MALE RF INPUTRF INPUTRF INPUTRF INPUT

J3J3J3J3CPR-137 GROOVED W/10-32 CPR-137 GROOVED W/10-32 CPR-137 GROOVED W/10-32 CPR-137 GROOVED W/10-32

UNF HOLESUNF HOLESUNF HOLESUNF HOLESCPR-137 FLAT W/STD THRU CPR-137 FLAT W/STD THRU CPR-137 FLAT W/STD THRU CPR-137 FLAT W/STD THRU

HOLESHOLESHOLESHOLESRF OUTPUTRF OUTPUTRF OUTPUTRF OUTPUT

J4J4J4J4 TYPE "N" FEMALETYPE "N" FEMALETYPE "N" FEMALETYPE "N" FEMALE TYPE "N" MALETYPE "N" MALETYPE "N" MALETYPE "N" MALE(OPTIONAL)(OPTIONAL)(OPTIONAL)(OPTIONAL)

RF OUTPUT MONITOR PORTRF OUTPUT MONITOR PORTRF OUTPUT MONITOR PORTRF OUTPUT MONITOR PORT


RF INPUT MONITOR PORTRF INPUT MONITOR PORTRF INPUT MONITOR PORTRF INPUT MONITOR PORT

J6J6J6J6 15 PIN D-SUB FEMALE15 PIN D-SUB FEMALE15 PIN D-SUB FEMALE15 PIN D-SUB FEMALE15 PIN D-SUB MALE ITT 15 PIN D-SUB MALE ITT 15 PIN D-SUB MALE ITT 15 PIN D-SUB MALE ITT

CANNON DEU-15PCANNON DEU-15PCANNON DEU-15PCANNON DEU-15PDISCRETE OUTPUTSDISCRETE OUTPUTSDISCRETE OUTPUTSDISCRETE OUTPUTS


CANNON DEU-9PCANNON DEU-9PCANNON DEU-9PCANNON DEU-9PSERIAL COMMUNICATION SERIAL COMMUNICATION SERIAL COMMUNICATION SERIAL COMMUNICATION RS 232/422/485/CANRS 232/422/485/CANRS 232/422/485/CANRS 232/422/485/CAN


CANNON DEU-9PCANNON DEU-9PCANNON DEU-9PCANNON DEU-9P(OPTIONAL) EXTERNAL POWER (OPTIONAL) EXTERNAL POWER (OPTIONAL) EXTERNAL POWER (OPTIONAL) EXTERNAL POWER SUPPLY MONITOR & CONTROLSUPPLY MONITOR & CONTROLSUPPLY MONITOR & CONTROLSUPPLY MONITOR & CONTROL


CANNON DEU-9PCANNON DEU-9PCANNON DEU-9PCANNON DEU-9P(OPTIONAL)(OPTIONAL)(OPTIONAL)(OPTIONAL)

SWITCH INTERFACESWITCH INTERFACESWITCH INTERFACESWITCH INTERFACE

J14J14J14J14 RJ 45 JACKRJ 45 JACKRJ 45 JACKRJ 45 JACK RJ 45 PLUGRJ 45 PLUGRJ 45 PLUGRJ 45 PLUG(OPTIONAL)(OPTIONAL)(OPTIONAL)(OPTIONAL)LAN 10BASE-TLAN 10BASE-TLAN 10BASE-TLAN 10BASE-T


I/F INPUT TO BUCI/F INPUT TO BUCI/F INPUT TO BUCI/F INPUT TO BUC


BUC OUTPUT. LOOP TO RF INBUC OUTPUT. LOOP TO RF INBUC OUTPUT. LOOP TO RF INBUC OUTPUT. LOOP TO RF IN

J4 RF OUT MON.J4 RF OUT MON.J4 RF OUT MON.J4 RF OUT MON.(OPTIONAL)(OPTIONAL)(OPTIONAL)(OPTIONAL)

4X .281 X .406 LG SLOT4X .281 X .406 LG SLOT4X .281 X .406 LG SLOT4X .281 X .406 LG SLOT

AIR INTAKE / REMOVABLE FILTERAIR INTAKE / REMOVABLE FILTERAIR INTAKE / REMOVABLE FILTERAIR INTAKE / REMOVABLE FILTER

8888

2.252.252.252.25

57.1557.1557.1557.15

25.4025.4025.4025.40

1.001.001.001.00

431.80431.80431.80431.80

17.0017.0017.0017.00

482.60482.60482.60482.60

19.0019.0019.0019.00

37.7237.7237.7237.72

1.491.491.491.49

5.225.225.225.22

132.59132.59132.59132.59

J16 I/F INPUTJ16 I/F INPUTJ16 I/F INPUTJ16 I/F INPUT

J17 BUC OUTPUTJ17 BUC OUTPUTJ17 BUC OUTPUTJ17 BUC OUTPUT

FRONT VIEWFRONT VIEWFRONT VIEWFRONT VIEW(HANDLES NOT SHOWN FOR CLARITY)(HANDLES NOT SHOWN FOR CLARITY)(HANDLES NOT SHOWN FOR CLARITY)(HANDLES NOT SHOWN FOR CLARITY)

GROUND POINTGROUND POINTGROUND POINTGROUND POINT10-32UNF X 0.5 STUD10-32UNF X 0.5 STUD10-32UNF X 0.5 STUD10-32UNF X 0.5 STUD

J14 LANJ14 LANJ14 LANJ14 LAN

J7 SERIAL COMMUNICATIONJ7 SERIAL COMMUNICATIONJ7 SERIAL COMMUNICATIONJ7 SERIAL COMMUNICATIONRS232/422/485/CANRS232/422/485/CANRS232/422/485/CANRS232/422/485/CAN

J8 EXTERNAL POWERJ8 EXTERNAL POWERJ8 EXTERNAL POWERJ8 EXTERNAL POWERSUPPLY UNIT MONITORSUPPLY UNIT MONITORSUPPLY UNIT MONITORSUPPLY UNIT MONITORAND CONTROLAND CONTROLAND CONTROLAND CONTROL

J6 DISCRETE OUPUTJ6 DISCRETE OUPUTJ6 DISCRETE OUPUTJ6 DISCRETE OUPUT

J3 RF OUTPUTJ3 RF OUTPUTJ3 RF OUTPUTJ3 RF OUTPUTCPR-137 GROOVED, WITHCPR-137 GROOVED, WITHCPR-137 GROOVED, WITHCPR-137 GROOVED, WITH10-32UNF-2B .25 HOLES10-32UNF-2B .25 HOLES10-32UNF-2B .25 HOLES10-32UNF-2B .25 HOLES

J5 RF INPUTJ5 RF INPUTJ5 RF INPUTJ5 RF INPUTMONITORMONITORMONITORMONITOR

J2 RF INPUTJ2 RF INPUTJ2 RF INPUTJ2 RF INPUT

REAR VIEWREAR VIEWREAR VIEWREAR VIEW(AIR EXHAUST DUCT NOT SHOWN FOR CLARITY)(AIR EXHAUST DUCT NOT SHOWN FOR CLARITY)(AIR EXHAUST DUCT NOT SHOWN FOR CLARITY)(AIR EXHAUST DUCT NOT SHOWN FOR CLARITY)

J1 100-240VACJ1 100-240VACJ1 100-240VACJ1 100-240VAC20A, 50/60Hz20A, 50/60Hz20A, 50/60Hz20A, 50/60Hz

J9 SWITCHJ9 SWITCHJ9 SWITCHJ9 SWITCHINTERFACEINTERFACEINTERFACEINTERFACE

1.831.831.831.83

46.5846.5846.5846.58

83.4483.4483.4483.44

3.293.293.293.29

2.832.832.832.83

71.9871.9871.9871.98

1.081.081.081.08

27.3127.3127.3127.31

91.9191.9191.9191.91

3.623.623.623.62

126.78126.78126.78126.78

4.994.994.994.99

16.8516.8516.8516.85

427.99427.99427.99427.99

18.3618.3618.3618.36

WITH OPTIONAL REDUNDANCY POWER SUPPLYWITH OPTIONAL REDUNDANCY POWER SUPPLYWITH OPTIONAL REDUNDANCY POWER SUPPLYWITH OPTIONAL REDUNDANCY POWER SUPPLY

AC POWERAC POWERAC POWERAC POWER




DO NOT USEDO NOT USEDO NOT USEDO NOT USE

THR4 ALARMTHR4 ALARMTHR4 ALARMTHR4 ALARM

GROUNDGROUNDGROUNDGROUND

+10.5 V+10.5 V+10.5 V+10.5 V

POSITIVEPOSITIVEPOSITIVEPOSITIVE

NEGATIVENEGATIVENEGATIVENEGATIVE

CABLE HARNESS CONNECT CABLE HARNESS CONNECT CABLE HARNESS CONNECT CABLE HARNESS CONNECT FROM THR4 ALARM TOFROM THR4 ALARM TOFROM THR4 ALARM TOFROM THR4 ALARM TOJ8 EXT. PSU M & CJ8 EXT. PSU M & CJ8 EXT. PSU M & CJ8 EXT. PSU M & C

OUTLINE DRAWING,OUTLINE DRAWING,OUTLINE DRAWING,OUTLINE DRAWING,SSPA IDUSSPA IDUSSPA IDUSSPA IDU

01040500010405000104050001040500 8888CLASS BCLASS BCLASS BCLASS B

F:\

SEE SHEET 1SEE SHEET 1SEE SHEET 1SEE SHEET 1

SEE SHEET 1 FOR NOTES.SEE SHEET 1 FOR NOTES.SEE SHEET 1 FOR NOTES.SEE SHEET 1 FOR NOTES.

01040500

01040500

01040500

01040500

A

8 7

B

C

6 5 4

D

8 7 6 5 4

DD DD

CAD=3SCALE: NTSSCALE: NTSSCALE: NTSSCALE: NTS SHEET 3 OF 3SHEET 3 OF 3SHEET 3 OF 3SHEET 3 OF 3

FSCM NO.FSCM NO.FSCM NO.FSCM NO.

02845028450284502845

SIZESIZESIZESIZE

D

DWG NO.DWG NO.DWG NO.DWG NO. REVREVREVREV

A

C

3

ZONEZONEZONEZONE LTRLTRLTRLTR

REVISIONSREVISIONSREVISIONSREVISIONS

2

DESCRIPTIONDESCRIPTIONDESCRIPTIONDESCRIPTION

1

ECOECOECOECO DATEDATEDATEDATE APPROVEDAPPROVEDAPPROVEDAPPROVED

D

OPTIONAL CONNECTOROPTIONAL CONNECTOROPTIONAL CONNECTOROPTIONAL CONNECTORSHOWNSHOWNSHOWNSHOWN

6.996.996.996.99

15.7215.7215.7215.72

mkt-197 125 225 c ssidu rev 7 - ai-sat · and spectral regrowth performance. simple to operate ......

Documents