Advantech AMT SSPB-Ci60 User manual
INSTALLATION AND OPERATING MANUAL
60W CI-BAND HUB-MOUNT
SOLID STATE BLOCK UP-CONVERTER
SSPB - Ci60
PM 1R0-GL61A0-3N0 REV. 1
SSPB-Ci60
WARRANTY
This ADVANTECH AMT™product is warranted against defects in material and workmanship
for a period of 2 years from the date of shipment. During the warranty period, ADVANTECH
AMT™will, at its option, either repair or replace products that will prove to be defective.
To return a product for warranty or repair service, you must first request a Return Material
Authorization (RMA) number by contacting ADVANTECH AMT™at:
Phone: (514) 420-0045 or Fax: (514) 420-0073
The unit should be shipped to the following address, in original shipping container (box), with
shipping charges prepaid.
ADVANTECH AMT™
657 Orly Avenue
Dorval, Quebec
H9P 1G1
CANADA
Please indicate the RMA number on all shipping documentation.
Units shipped without prior issued RMA, or shipped not in original packing, may be subject of
rejection and returned at sender’s own expense.
LIMITATIONS OF WARRANTY
ADVANTECH AMT™warrants this product to be free of materials and workmanship defects.
The foregoing warranty shall not apply to defects resulting from improper handling or abuse by
the Buyer, unauthorized modification, operation outside of the environmental specifications for
the product, or improper installation or maintenance.
ADVANTECH AMT
™
shall not be liable for any direct, indirect, special, incidental or
consequential damages.
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SSPB-Ci60
CONTENTS
1. SAFETY.................................................................................................................................. 6
2. PACKING LIST..................................................................................................................... 9
2.1 PACKING LIST FOR ONE UNIT ................................................................................... 9
3. GENERAL INFORMATION ............................................................................................. 10
4. MAJOR SUBSYSTEMS AND THEIR FUNCTIONS...................................................... 11
4.1 INTRODUCTION........................................................................................................... 11
4.2 DESCRIPTION............................................................................................................... 11
4.3 SINGLE UNIT MAJOR COMPONENTS...................................................................... 11
4.3.1 L-Band to CI-Band Up-Converter Module............................................................... 12
4.3.2 Power Amplifier Module........................................................................................... 12
4.3.3 Waveguide Assembly................................................................................................. 12
4.3.4 10 MHz REFERENCE OSCILLATOR...................................................................... 13
4.3.5 Main Controller Board............................................................................................. 13
4.3.6 Power Supply ............................................................................................................ 14
4.3.7 Cooling System.......................................................................................................... 14
4.4 SPECIFICATIONS ......................................................................................................... 17
5. INTERFACES......................................................................................................................20
5.1 RELAY INTERFACE............................................................................................................ 20
5.2 RS-232 INTERFACE...................................................................................................... 22
5.3 RS-485 INTERFACE...................................................................................................... 23
5.4 RF OUTPUT MONITOR INTERFACE ................................................................................... 23
6. UNPACKING AND INSTALLATION.............................................................................. 24
6.1 INITIAL INSPECTION .................................................................................................. 24
6.2 UNPACKING.................................................................................................................. 24
6.3 INSTALLATION............................................................................................................ 24
6.3.1 Relay, Serial Interfaces and AC Power Cables Construction .................................. 25
6.3.2 Environmental and Adequate Ventilation Considerations ....................................... 25
6.3.3 Mechanical, RF and Electrical Installation.............................................................. 26
7. PRE-POWER AND UNIT CHECKOUT .......................................................................... 28
7.1 PRE-POWER PROCEDURES........................................................................................ 28
7.2 OPERATIONAL SETTINGS VERIFICATION ............................................................ 28
8. OPERATION........................................................................................................................ 29
8.1 INTRODUCTION........................................................................................................... 29
8.2 SAFETY CONSIDERATIONS ...................................................................................... 29
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SSPB-Ci60
8.3 BASIC OPERATING PROCEDURE............................................................................. 29
8.4 AUTOMATIC LEVEL CONTROL (ALC).................................................................... 30
8.5 USING THE SSPB SOFTWARE ................................................................................... 31
8.5.1 Using the RS-232 Interface....................................................................................... 31
8.5.2 Using the RS-485 Interface....................................................................................... 39
9. MAINTENANCE................................................................................................................. 40
9.1 PREVENTIVE MAINTENANCE.................................................................................. 40
9.2 MECHANICAL PREVENTIVE MAINTENANCE....................................................... 40
9.3 COOLING FAN CHECK................................................................................................ 40
10. APPENDIX A: RS-485 SERIAL COMMUNICATION PROTOCOL........................ 41
10.1 FRAME STRUCTURE................................................................................................... 41
10.2 COMMANDS.................................................................................................................. 42
10.3 RESPONSE TO COMMANDS FROM SLAVE TO MASTER..................................... 44
11. APPENDIX B: SAFETY AND EMC COMPLIANCE ................................................. 48
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SSPB-Ci60
FIGURES
FIGURE 1: PRODUCT OUTLINE ...................................................................................................... 15
FIGURE 2: BLOCK DIAGRAM......................................................................................................... 16
FIGURE 3: CONNECTORS ............................................................................................................... 19
FIGURE 4: VT RS-232 COMMUNICATION - TERMINAL MODE DISPLAY (AFTER PRESSING
<ENTER>)............................................................................................................................. 32
FIGURE 5: VT RS-232 COMMUNICATION - LIST OF COMMANDS (AFTER PRESSING H – FOR HELP)35
FIGURE 6: PROPOSED GRAPHIC USER INTERFACE (GUI) BASED ON RS-485 PROTOCOL .............. 47
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SSPB-Ci60
TABLES
TABLE 1: ELECTRICAL SPECIFICATIONS........................................................................... 17
TABLE 2: MECHANICAL SPECIFICATIONS ........................................................................ 18
TABLE 3: POWER REQUIREMENTS...................................................................................... 18
TABLE 4: ENVIRONMENTAL CONDITIONS........................................................................ 18
TABLE 5: CONNECTORS......................................................................................................... 19
TABLE 6: RELAY INTERFACE – PIN ASSIGNMENT .......................................................... 21
TABLE 7: RS-232 INTERFACE – PIN ASSIGNMENT ........................................................... 22
TABLE 8: RS-485 INTERFACE – PIN ASSIGNMENT ........................................................... 23
TABLE 9: SERIAL INTERFACE RS-232 CONNECTION INFORMATION.......................... 26
TABLE 10: AC LINE (J5) CONNECTOR – PIN ASSIGNMENTS.......................................... 27
TABLE 11: RS-232 MENU ITEM DEFINITION ...................................................................... 33
TABLE 12: COMPUTER TERMINAL COMMANDS FOR RS-232 INTERFACE................. 36
TABLE 13: COMMAND FRAME STRUCTURE ..................................................................... 43
TABLE 14: CONDITION STATUS RESPONSE....................................................................... 44
TABLE 15: READ IDENTIFICATION RESPONSE................................................................. 44
TABLE 16: READ FREQUENCY RANGE RESPONSE .......................................................... 45
TABLE 17: READ GAIN RANGE RESPONSE........................................................................ 45
TABLE 18: READ FREQUENCY SHIFT RESPONSE............................................................. 45
TABLE 19: UNIT STATUS AND SWITCH POSITION AND STATUS RESPONSE............ 46
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SSPB-Ci60
1. SAFETY
In addition to this section, included by reference are the following pertinent sections of the
International Standard IEC-215, ‘Safety requirements for radio transmitting equipment’:
Appendix D, ‘GUIDANCE ON ASSESSING THE COMPETENCE OF PERSONNEL FOR
DESIGNATION AS SKILLED’ and also Sub-clause 3.1 of the Standard.
Appendix E, ‘GUIDANCE ON SAFETY PRECAUTIONS TO BE OBSERVED BY
PERSONNEL WORKING ON RADIO TRANSMITTING EQUIPMENT’, also Sub-clauses 3.2,
3.7 and 22.1 of the Standard.
To prevent the risk of personal injury or loss related to equipment malfunction ADVANTECH
AMT™uses the following symbols for safety related information. For your own safety, please
read the information carefully BEFORE operating the equipment.
Symbols used in manual:
WARNING: This indicates a hazardous procedure that could result in serious injury or death if
not performed properly.
CAUTION: This indicates a hazardous and dangerous procedure that could result in light-
to-severe injury or loss related to equipment malfunction, if proper precautions
are not taken.
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SSPB-Ci60
----------------------------------------------- WARNING ---------------------------------------------------
When supplying power to this equipment, use the 3-pin connector provided, to connect to a
grounded power outlet. If power is supplied without grounding to the equipment, there is a risk
of receiving a severe or fatal electric shock.
In the context of this document any voltage that is lethal is viewed as ‘High Voltage’. Therefore,
even prime power (90 to 265V AC) is dangerous because prime power potentials have been
known to cause death or injury.
----------------------------------------------- WARNING ---------------------------------------------------
This equipment can not be repaired by the operator. DO NOT attempt to remove the
equipment cover or to disassemble internal components. Only qualified service technicians
should service this equipment. There are high-voltage parts in this equipment presenting a risk of
severe injury to untrained personnel. In addition, there is a risk of damage to precision
components.
----------------------------------------------- WARNING ---------------------------------------------------
ALWAYS TERMINATE THE OUTPUT OF THE BLOCK UP-CONVERTER WITH A
RF LOAD CAPABLE OF DISSIPATING FULL CW RF POWER. SIMILARLY
TERMINATE THE INPUTS TO AVOID THE POSSIBILITY OF THE UNIT BEING
DRIVEN BY STRAY LEAKAGE SIGNALS. Incorporate the terminations prior to applying
prime power to the unit. This procedure prevents self-oscillation and irradiation of the local
environment. Even if a source is not connected to the unit you are working with, there are
situations where the block up-converter can go into a self-induced mode and generate high levels
of RF energy. Destruction caused under excessive load voltage standing wave ratio (VSWR) will
void the warranty. Although this equipment has internal protection for VSWR higher than 3:1
and will automatically go in shutdown (with a delay of 1 second), still it is a safe procedure to
avoid unwanted effects.
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SSPB-Ci60
----------------------------------------------- WARNING ---------------------------------------------------
DO NOT LOOK INTO THE OUTPUT PORTS OF THE POWERED RF TBLOCK UP-
CONVERTER.Treat the powered RF unit with extreme care. Keep in mind that levels of
microwave radiation that do not induce immediate physical discomfort in most individuals can
be sufficiently high to induce longer term effects. Your eyes are particularly vulnerable parts of
your body.
The permissible levels of exposure are quite low compared to the power levels of the amplifiers
built by ADVANTECH AMT™(e.g. less than 10 mW versus 10 to 500 W delivered by various
units). The permissible levels are currently being studied by a number of organizations. In the
past the U.S. safety Code established a dosage rate of 10 mW/cm2. Currently there is
consideration being given to reducing the permissible level to 1 mW/cm2in the United States, as
has been the case for several European countries.
----------------------------------------------- CAUTION-----------------------------------------------------
THIS IS A HEAVY EQUIPMENT. USE TWO OR MORE PEOPLE TO LIFT AND
MOVE this equipment or use an equipment cart. There is a risk of back injury, if this equipment
is lifted by one person.
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SSPB-Ci60
2. PACKING LIST
2.1 PACKING LIST FOR ONE UNIT
PACKING LIST FOR SSPB-Ci60 UP-CONVERTER
(one unit)
(Shipping Kit P/N 19R-GL63A0-0N1)
Item Quantity Description Part #
1. 1 Installation and Operating Manual PM 1R0-GL61A0-3N0 Rev. 1
2. 1 60W CI-Band Block Up-Converter,
model SSPB-Ci60 1R0-GL61A0-3N0
3. 1 Connector circular MIL C-5015, straight
cable plug, 3 sockets, MS3106F16-10S
(connector for J5 ) 631-310616-001
4. 2
Connector circular, MIL-C-26482, 6 contacts
female, straight cable plug, shell 10,
MS3116F10-6S (connectors for RS-232 and
RS-485 Serial Interfaces)
631-311606-001
5. 1
Connector circular, MIL-C-26482, 10
contacts female, straight cable plug, shell 12
MS3116J12-10S (connector for RELAY
Interface)
631-311612-003
6. 1 Gasket CPR Half WR137 Silicone
Non-conductive 705-137000-001
7. 1 roll Tape Moisture Sealing/Insulating
(Mastic Tape) 709-224200-001
8. 8 #10-32 x 1/2” Mach Screw Hex Head 18-8
Stainless Steel (SS) 802-103290-001
9. 8 #10 Split washer 18-8 SS 803-100100-001
10. 8 #10 Flat Washer 7/16 OD X.20 ID X 031 Thk
18-8 SS 803-100200-001
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SSPB-Ci60
3. GENERALINFORMATION
This manual contains information that describes installation, operation and maintenance
procedures for the 60 W CI-Band hub-mount (outdoor) Solid State Block Up-Converter, model
SSPB-Ci60. Because specialized training is required for some phases of installation and
operation, certain parts of this manual are directed only to trained personnel. Warnings appear at
the appropriate points to caution all users of potential RF and high-voltage hazards.
For a safe and versatile operation, please read the information carefully BEFORE using the
equipment.
ADVANTECH AMT
™
has prepared this manual for use by customers as a guide for the proper
installation, operation and maintenance of ADVANTECH AMT
™
equipment and computer
programs. The drawings, specifications, and information contained herein are property of
ADVANTECH AMT
™
. Any unauthorized use or disclosure of these drawings, specifications and
information is prohibited; they shall not be reproduced, copied or used in whole or in part as the
basis for manufacturing or sale of the equipment or software programs without the prior written
consent of ADVANTECH AMT
™
.
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SSPB-Ci60
4. MAJOR SUBSYSTEMS AND THEIR FUNCTIONS
4.1 INTRODUCTION
This manual contains information required to install and operate the 60W CI-Band Hub-mount
(Outdoor) Solid State Block Up-Converter model SSPB-Ci60.
4.2 DESCRIPTION
The Solid State Power Block Up-Converter (SSPB) unit is self-contained and is intended for
mounting near the hub of the antenna. Each Up-Converter unit incorporates a DC main power
supply and forced air cooling system, see Figure 1: Product Outline at page 15. Each unit features
a serial RS-485 interface that provides full remote monitor and control capabilities via a computer
interface as well as serial RS-232 interface (that may be used in Terminal mode) and a discrete
interface (Relay) for local or remote monitoring and control of selected functions. A functional
block diagram of the unit is shown in Figure 2 at page 16.
4.3 SINGLE UNIT MAJOR COMPONENTS
The SSPB Up-Converter consists of the following major components:
• L-Band to CI-Band Up-Converter Module,
• Power Amplifier Module,
• Waveguide Assembly,
• 10 MHz Reference Oscillator,
• Main Controller Board,
• Power Supply,
• Current Sensor, and
• Power Monitor Board.
These components are interconnected using dedicated wiring harnesses and coaxial cables.
To clarify the explanation of the components in the following paragraphs, refer to the block
diagram in Figure 2 at page 16.
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SSPB-Ci60
4.3.1 L-BAND TO CI-BAND UP-CONVERTER MODULE
The L/CI-Band Up-Converter Module converts and amplifies the incoming L-Band carrier
into the desired CI-Band carrier.
The module has an internal synthesizer, which is fixed at 5500 MHz.
The up-converter module has RS-485 communication port that connects to the main controller
board. It also provides a discrete ALARM signal to the Main Controller.
4.3.2 POWER AMPLIFIER MODULE
The Power Amplifier Module amplifies the RF signals from the L/CI-Band
up-converter module over the frequency range of 6725 MHz to 7025 MHz. The power amplifier
has a fixed gain of 48 dB, typical.
The monitoring and control signals are the Alarm Output and the Relay Input for muting the
power amplifier.
Temperature sensors are installed at the module’s hot spots to prevent the RF devices from
overheating and operating at temperatures exceeding 85ºC.
The power amplifier also has the following functions:
1. Provides and removes the DC voltages to the GaAs FET devices within the module.
2. Provides a temperature dependent DC voltage to the L-C up-converter for temperature
compensation.
3. Sends a FAULT signal to the main controller board when detecting a fault.
4. Any Synthesizer is out of lock
The power amplifier will be in the Mute mode if:
1. The user sends a MUTE command through the Relay, RS-232, or RS-485 interfaces.
2. The hot spot temperature exceeds +85 °C.
3. Any of the GaAs FET devices failed (drain current out of range).
4.3.3 WAVEGUIDE ASSEMBLY
The Waveguide Assembly contains a forward and reflected power detector, an RF output
circulator and a waveguide receive reject filter.
The forward power detector and the reflected power detector monitor the RF output power level
and the reflected power level respectively. The detected voltage signals are delivered to the
Power Monitor Module that converts the analog signals in digital signals and delivers them to the
Main Controller Board.
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SSPB-Ci60
The circulator provides a VSWR protection at the SSPB RF output port. The VSWR at the
circulator output is 1.25:1, minimum. The termination load of the isolator is capable of fully
absorbing any reflected power. A CPR137 grooved type waveguide flange is the unit output.
4.3.4 10 MHz REFERENCE OSCILLATOR
This module is used to generate a highly stable and very low phase noise 10 MHz reference
frequency with a high stability (of ±5 x 10-8 MHz/year typical), which is required by all
converter modules. A 10 MHz reference is sent to each converter module via a coaxial cable.
4.3.5 MAIN CONTROLLER BOARD
The Main Controller Board contains a microprocessor controller that performs all of the
monitoring and control, input/output communication and the decision-making. The main
controller board provides:
1. Fault detection and indication from each module of the unit
2. Mute control and indication
3. Forward RF power indication
4. Reflected RF power indication
5. Redundancy control (if working in the 1:1 redundancy mode)
6. Unit Gain control (attenuation setting)
7. Relay, RS-232 and RS-485 customer interface
4.3.5.1 FAULT Detection and Indication
The unit will automatically go into a shutdown mode (MUTE) and send a message to all of the
external interfaces (including the red Tx LED) when any one of the following occurs:
1. The local oscillator within an up-converter module is out of lock.
2. The hotspot temperature exceeds 85°C.
3. Any of the GaAs FET devices failed.
4. Reflected power is greater than 41 dBm (6 dB back-off from the rated P1dB).
The SSPB continually monitors the internal temperature and the current consumption. It also has
an automatic shutdown feature to prevent operation at excessive temperatures. The unit will
automatically restart when the hotspot temperature falls below to 65°C.
A thermal alarm may result from any one of the following conditions:
1. High ambient temperature (the SSPB Up-Converter is designed to operate between -30°C
and +55°C ambient).
2. Blockage at the air intake or exhaust vents.
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SSPB-Ci60
4.3.5.2 MUTE Control
The user can disable the RF output power remotely by:
1. Leaving unconnected pins G and H of the Relay interface connector the Transmit way will be
MUTE (see Section 5.1 at page 20).
2. Sending a mute command in terminal mode through the RS-232 interface for transmit.
3. Sending a mute command in packet mode through the RS-485 interface for transmit.
This feature is useful if the user wishes to perform a maintenance check or to check out the
transmission system.
4.3.6 POWER SUPPLY
The Power Supply Module provides +12 VDC output to the following modules:
1. Power amplifier module (high current),
2. L/CI-Band up-converter module,
3. 10 MHz oscillator,
4. Power monitor module,
5. Current sensor,
6. Main controller board, and
7. Redundancy waveguide switch (if working in the 1:1 redundancy mode).
The power supply also provides the following outputs:
• -9 VDC
• +48 VDC for the cooling fan
The separate +48 VDC is necessary to operate the cooling fan. This will be a variable,
temperature dependent, voltage that will ensure a variable rotation speed of the cooling fan
related to the temperature (the fan will rotate slower when the temperature is low and faster when
the temperature is high).
The power supply is configured to operate from an 90-138 VAC or 180-264 VAC
(autoranging), 47-63 Hz, single phase supply. The overall typical power consumption, at the
rated RF output power, is approximately 550 W.
4.3.7 COOLING SYSTEM
The thermal conduction from the modules to the heatsink and the cooling fan provide a sufficient
cooling for the SSPB.
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SSPB-Ci60
Figure 1: Product Outline
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SSPB-Ci60
BOTTOM SHROUD
HPAASSEMBLYL-BAND TO C-BAND UP-CONVERTER W/G ARM ASSEMBLY
LNA
BPF
RS-485_L-RF
ALM_L-RF
+12 V
VVA MIXER
PLL
LO
CONTROLLER
GND
TEMP
SENSOR
+12V,
-9V
+12V,
-9V
OUTPUT
POWER
DETECTOR
40 dB CIRCULATOR
CONTROLLER
&
POWER CONDITIONER
BOARD
BPF
ISOLATOR
+12 V
GND
-9 V
ALM_PA
MUTE_PA
FW_PWR
RS-485_PA
Tx In
+12 V
+ 12 V
C-BAND
OUT
MON
THERM MAIN CONTROLLER BOARD
MUTE_PA
RS-485_L-RF
RS-485_PA
ALM_L-RF
ALM_PA
REDUND REDUND
RS-485
RELAY
RS-485
RELAY
RS-232 RS-232
LINE
NEUTRAL
B
C
POWER
SUPPLY
0...48V(FAN)
J5
AC LINE
-9V
A
COOLING
FAN
CURRENT
SENSOR
CS
+12 V
+12 V
GND
+12 V
RV_PWR
REFLECTED
POWER
DETECTOR
30 dB
GND
GND
oC
THERMISTOR
POWER
MONITOR
MODULE
+12 V
RS-485_PM
AMP LNA HPA
LEDs
LEDS
THERM
10 MHz REFERENCE OSC
10 MHz
SPLITTER
10MHz
AMP
STEP
ATTEN.
GAIN
CONTR.TEMP.
COMP.
4900MHz
50 Ohm
50 Ohm
50 Ohm
-9 V
LIGHTNING
ARRESTER
RS-485
RS-485_PM
RS-485
THERM
-9V
+12V
Figure 2: Block Diagram
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SSPB-Ci60
4.4 SPECIFICATIONS
The Block Up-Converters specified herein are capable of meeting or exceeding the performance
specifications listed in the following table over frequency range, operating temperature and line
voltage variation, unless otherwise specified. The units will meet all RF performance specifications
within thirty minutes of application of prime power.
TABLE 1: ELECTRICAL SPECIFICATIONS
L-Band Input Frequency 1225 – 1525 MHz
RF Output Frequency Range 6.725 – 7.025 GHz
Frequency Stability Based upon 10 MHz Internal Reference
RF Output Power @ 1 dB Gain Compression
(P1dB) + 47 dBm, min. (60 W saturated power)
Linear Gain 68 dB ±0.5 dB, @ 6.875 MHz and +23 °C
Gain Adjustment Range 20 dB (between 48 dB and 68 dB)
Gain Flatness: over 300 MHz
over 10 MHz 4 dB p–p, max
0.3 dB, max
Gain Variation Over Temperature 3 dB p-p, over the entire bandwidth
L-Band Input Impedance 50 Ω
L-Band Input Return Loss 18 dB, min
Output Return Loss 18 dB, min
Noise Power Density in-band
in Rx band @ 4200 MHz - 83 dBm/Hz, max
- 155 dBm/Hz, max
Spurious at rated P1dB - 60 dBc, max
Harmonics at rated P1dB - 60 dBc, max
Third Order Intermodulation
(two equal tones 5 MHz apart) - 26 dBc, max @ 3 dB total back-off from rated P1dB
Local Oscillator Frequency 5.500 GHz
Local Oscillator Leakage - 20 dBm, max
Output Phase Noise
@ Offset: 100 Hz
1 kHz
10 kHz
. ≥100 kHz
CI-Band Single Side Band Phase Noise (max)
- 65 dBc/Hz
- 75 dBc/Hz
- 85 dBc/Hz
- 95 dBc/Hz
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SSPB-Ci60
TABLE 2: MECHANICAL SPECIFICATIONS
Physical Dimensions See Figure 1: Product Outline at page 15
Approximate Weight 62 lbs. (27 kg)
Mounting Requirements See Figure 1: Product Outline at page 15
TABLE 3: POWER REQUIREMENTS
Power Requirements 90–138 or 180 –264 VAC (autoranging), 47-63 Hz, single phase
Power Consumption 7 A typical @ 110 V AC (550 W), each unit
TABLE 4: ENVIRONMENTAL CONDITIONS
Temperature:
Non-operating (continuous exposure)
Operating (ambient)
- 50° C to + 85° C
- 30° C to + 55° C
Relative Humidity: 100% max., condensing, up to 2”/hr rain
Altitude: 10,000’ AMSL, derated 2° C / 1,000’ from
AMSL
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SSPB-Ci60
Figure 3: Connectors
TABLE 5: CONNECTORS
Connector Function Description Mating Connector
Tx In (J1) L-Band Input N-Type (F) 50 ΩN-Type (M) 50 Ω
RS 232 (J2) Serial Interface MS3112E10-6P (M) MS3116F10-6S (F)
Relay (J3) Discrete Interface MS3112E12-10P (M) MS3116J12-10S (F)
RS 485 (J12) Serial Interface MS3112E10-6P (M) MS3116F10-6S (F)
(J5) AC Line MS3102R16-10P (M) MS3106F16-10S (F)
Mon (J4) RF Output Monitor N-Type (F) 50 ΩN-Type (M) 50 Ω
Redundancy
(J6) Redundancy Interface MS3112E16-26P (M) MS3116F16-26S (F)
RF Out (J7) RF Output CPR137 W/G Flange
(Grooved) CPR137 W/G Flange
(Flat)
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Table of contents
