Quintech designs and manufactures the largest RF Matrix Switching Systems in the world

Quintech designs and manufactures the largest RF Matrix Switching Systems in the world Our Product Development is Customer-Driven

TABLE OF CONTENTS: About Quintech Page# RF Matrix Switching Systems QE3 2500 Quintech Electronics Third Generation 64 x 64 RF Matrix Routing Switch Page 4 XRM 2250 L-band Matrix Router - 3-Stage, Hot Swap, Modular Page 6 QRM 2500 16 x 16 RF Matrix Switch with Q-Route & Q-Sense Page 8 QFM 2500 16 x 16 RF Combining Matrix Switch with Q-Route Page 10 Q-ROUTE & Q-SENSE Page 11 MRM 2500 L-band Matrix Router - High Input Level, Modular, Full Fan-out (Splitting) Page 12 MRM 1100 Broadband Matrix Router - High Input Level, Modular, Full Fan-out (Splitting) Page 12 MRM 1000 Broadband Matrix Router - High Input Level, Modular, Full Fan-out (Splitting) Page 12 MRM 0200 IF Matrix Router - High Input Level, Modular, Full Fan-out (Splitting) Page 12 SRM 2150 L-band Matrix Router - Modular, Full Fan-out (Splitting) Page 13 SRM 1000 Broadband Matrix Router - Modular, Full Fan-out (Splitting) Page 13 SRM 0200 IF Matrix Router - Modular, Full Fan-out (Splitting) Page 13 SFM 2150 L-band Matrix Router - Modular, Full Fan-in (Combining) Page 14 SFM 0200 IF Matrix Router - Modular, Full Fan-in (Combining) Page 14 MRF 2150 L-band Matrix Router - Full Fan-out (Splitting) Page 15 MRF 1000 Broadband Matrix Router - Full Fan-out (Splitting) Page 15 MRF 0200 IF Matrix Router - Full Fan-out (Splitting) Page 15 RF Routing Switches SRR 2150 L-band Switch (1x8, 8x1, 1x16, 16x1) Page 17 SRR 1000 Broadband Switch (1x8, 8x1, 1x16, 16x1) Page 17 SRX 2150 Modular L-band Switch (1xn/nx1) Page 17 SRX 1000 Modular Broadband Switch (1xn/nx1) Page 17 SRM 1000 Bi-directional Matrix Broadband Router - (Passive) Page 18 SRB 2000 Bi-directional Matrix Router for Wireless ATE Page 19 LTE 3000 16x16 LTE RF Switch Page 20 RF Sensing Redundancy Switches RSS 1750 L-band Sensing Redundancy Switch Page 21 RFS 2150 L-band Sensing Redundancy Switch Page 22 RFS 0070 70 MHz IF Sensing Redundancy Switch Page 22 RSP 2150 Redundancy L-band Sensing Switch & Hot Swap DC PSU Page 23 RF Relay Switches SRF 1750 Satellite News Gathering (SNG) Receiver Switch Page 24 Line Amplifiers AMP 2150 L-band Line Amplifier Page 25 Redundant Power Supplies RPS Series Redundant LNB Power Supplies / DC Power Supplies Page 26 RF Splitters & Combiners LS 2150A Series Active (Amplified - Zero Loss) L-band Splitters Page 27 LS 2150P Series Passive L-band Splitters Page 27 LC 2150A Series Active (Amplified - Zero Loss) L-band Combiners Page 28 LSC 1000P Series Passive Broadband Splitter/Combiners Page 28 LS 1000A Series Active (Amplified - Zero Loss) Broadband Splitters Page 29 LC 1000A Series Active (Amplified - Zero Loss) Broadband Combiners Page 29 Splitter Combiner Options Page 30 RF Frequency Converters PUL 070A Frequency Agile 70 MHz IF To L-band Up Converter Page 31 PUL 070D 70 MHz IF To L-band Up Converter Page 31 PUL 0140D 140 MHz IF To L-band Up Converter Page 31 PDL 070D L-band to 70 MHz IF Down Converter Page 32 PDL 0140D L-band to 140 MHz IF Down Converter Page 32 Fiber Optic Solutions TXS/RXS 2150 8:1 Fiber Link Redundancy System Page 33 Reference Guide Page 35-39 3

QE3 Quintech Electronics Third Generation 64 x 64 RF Matrix Routing Switch The QE3 features a compact 64 x 64 RF matrix in 6 RU. Its operating frequency range covers both IF 50-200 MHz and extended L-Band 950-2150 MHz. The QE3 is highly scalable and can easily be expanded to a 1024 x 1024. Hot-swappable component cards enable fast and easy replacement (less than 30 seconds) without any special tools or disconnecting any cables. The hot swappable control cards, which operate independently & simultaneously, offer the highest level of redundancy in control. The dual hot swappable power supply provides redundancy in powering. The RF level at the inputs and outputs is monitored to facilitate troubleshooting network interfaces. The programmable automatic gain control (AGC) and attenuation on all inputs allows the user to adjust input signal level for optimum performance. Compact modular design - 64 x 64 in 6U, easily expandable to 1024 x 1024 Operating Frequency Range IF 50-200 MHz and L-band 950-2150 MHz Fast and easy hot-swap (less than 30 seconds) of all active cards from the front without using special tools or replacing cables Redundant hot-swap control cards plus independent redundant control systems offer the highest level of redundancy in control RF signal level monitoring at the inputs and outputs provides self-test capability and facilitates troubleshooting network interfaces Programmable AGC and attenuation on all inputs allows the user to adjust the input signal level for optimum performance Backwards compatible with XRM & SRM system Remote controlled via web browser QE3 System L-Band IF Specifications: Operating Frequency: 950-2150 MHz 50-200 MHz Configurations: 64x64 (6 RU) up to 1024x1024 64x64 (6 RU) up to 1024x1024 Frequency Response: Isolation: ± 1.5 db ± 0.5 db Over any 36MHz Channel >65 db input to input >60 db output to output >50 db input to output ± 1.5 db ± 0.5 db Over any 36MHz Channel >65 db input to input >60 db output to output >50 db input to output RF Input Power : -10 dbm to -70 dbm -10 dbm to -70 dbm Gain Range (manual mode): -12 db to +18 db in 0.5 Steps -12 db to +18 db in 0.5 Steps Output AGC level: -10 dbm to -50 dbm -10 dbm to -50 dbm Max RF Output Power: -10 dbm -10 dbm Input P1dB: 0 dbm -1 dbm OIP3: +10 dbm +9 dbm Input Return Loss : +14 db +13 db Output Return Loss: +14 db +10 db Noise Figure: 22 db @ 0 db Gain 26 db @ 0 db Gain RF Connectors: AC Input Power: Local Control: PC Remote Control: Software: Power Consumption: Mechanical: BNC (50 or 75 Ω), Type F, SMA Connectors Auto ranging 100-240 VAC, 50/60 Hz Front Panel Keypad with LCD Display RS-232, RS -422/485, SNMP, TELNET or TCP/IP via customer supplied PC Basic PC-compatible software and command protocol included 620 W 64 x 64 in 6U: 10.5 H x 19 W x 25.25 D 4

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XRM 2250 3-Stage Hot Swap Modular L-band Matrix Routing Switch Hot Swap Component Cards 3-Stage Architecture RF Path Health Monitoring with Auto Re-routing Built In Self Test (BIST) Input RF Monitoring Input Attenuation Input/Output Naming Access Control Ethernet Control Compact, Modular Design Backward Compatible w/ Legacy Quintech SRM Series Matrices XRM 2250/32x32 Provides fast & easy replacement for active component cards in 30 seconds or less without the use of tools or disconnection of cables Enhances signal integrity Compares input & output signal levels. If a fault in the signal path is detected, the system can automatically route around the fault using an alternate path within the XRM module. The control card then sends an SNMP trap alarm to the operator. Status can also be polled from the PC On-board continuous monitoring of RF signal levels, signal path integrity, power supply status, fan speed, temperature and other operating parameters. SNMP traps provide instant notification of any changes in status Monitors incoming RF level from the LNB to the input of the switch, indicating equipment failures 20 db or greater... if they occur prior to the switch. Used as a point of comparison for RF path health. Reads a total power within -10 to -50 ± 2 db Balances inputs to maximize port to port isolation. (0 to 15.5dB in 0.5 db increments) 7-character alpha-numeric naming of inputs and outputs for easy reference Provides up to 8 password protected user accounts. Allows/denies user access to individual ports and prevents accidental changes to port assignments TCP/IP, Telnet or SNMP using customer monitoring & control systems for convenient integration into Ethernet-based networks. (Serial control capabilities also provided) 32x32 (6 RU) up to 512x512 with additional 6 RU expansion modules XRM modules are fully compatible and will function in hybrid systems using legacy SRM modules The XRM 2250 L-band matrix switch features a 3-stage RF matrix switch design which provides redundant RF signal paths and automated re-routing in the event of a crosspoint fault. A complete 32x32 L-band matrix, including hot-swappable cards, redundant power supplies, and system controller is contained in a 6 RU chassis. The user can easily access cards for upgrades and maintenance via front panel without disconnecting cables or disrupting the signal paths of the other cards in the system. This permits seamless online upgrades and maintenance. The modular design permits a wide variety of configurations which can be easily expanded. XRM 2250 32x32 System Specifications: Operating Frequency: L-band (950-2150 MHz) Configurations: 32x32 (6 RU) up to 512x512 with additional modules Impedance: 75 Ω (50 Ω optional) Insertion Loss: ± 2 db Frequency Response: ± 3 db Isolation (input-to-input): (output-to-output): (input-to-output different input): Input P1dB: Normal Operating Input Power Level: Noise Figure: Return Loss: RF Connectors: AC Input Power: Power Consumption: Local Control: PC Remote Control: Software: Mechanical: 60 db 60 db 50 db 0 dbm min. -50 to -10 dbm 17 db max. > 14 db. 75 Ω (BNC) F, SMA 90 to 264VAC, 47 to 63 Hz 200 W Front panel keypad with LCD display RS-232, RS-422/485, SNMP, Telnet or TCP/IP via customer-supplied PC Basic PC-compatible operating software and system protocol included with system 32x32 in 6 RU (10.5 H x 19 W x 20 D) (Larger systems require multiple modules) XRM System Architecture: Each XRM System larger than 32x32 is made up of one or more system modules. System modules include XRD Input Distribution Modules, XRM Matrix Switch Modules and XRO Output Switch Modules. The number and type of modules depends on the desired number of inputs and outputs. The RF signals pass through no more than three modules, regardless of the system size - XRD >>XRM>>XRO (See configuration diagram on page 6). Future system expansion is possible with additional system modules. 6

XRM 2250 3-Stage Redundancy Switching Architecture XRD 2250 Input Distribution Module: Accepts RF signal inputs and distributes them to the XRM Matrix Switching Modules. Expanded XRM 2250 64x64 System Configuration with Controller XRM 2250 Matrix Switch Module: Module Function: Accepts RF signals from the XRD Input Distribution Modules and routes them to an XRO Output Switch Module. XRO 2250 Output Switch Module: Module Function: Receives RF signals from the XRM Matrix Switch Modules and routes them to the appropriate system output(s). 3-Stage Auto Re-routing Signal F ault Detected Bridge C ard 1 Bridging M atrix 1 a n d 2 Signal S ource: In p u t C a rd 4, P o rt 1 Bridge C ard 2 Bridging M atrix 3 a n d 4 S ig n a l D e s tin a tio n : O u tp u t C a rd 2 P o rt 1 C o n n e c t R e d ire c t T o N e x t Available Path : B rid g e C a rd 4, B rid g in g M atrix 8, P o rt 1 Bridge C ard 4 Bridging M atrix 7 a n d 8 Bridge C ard 3 Bridging M atrix 5 a n d 6 7

QRM 16 x 16 RF Matrix Routing Switch with Q-Route & Q-Sense The QRM is a full fan-out RF matrix switch where any of the inputs can be routed to any or all outputs. The QRM features Quintech s latest Q-Route and Q-Sense technology, which provides maximum reliability with signal path redundancy and auto re-route capabilities. The QRM s operating frequency range covers 50 MHz to 2150 MHz. It also offers manual and automatic AGC modes with a range of -15dB to +16 db in 0.5 db steps with optional LNB power. It is controllable either locally via the front panel keypad or remotely via computer and is compatible with most monitoring and control systems. Q-ROUTE provides internal signal path redundancy by automatically re-routing around a failed signal path Q-SENSE Provides external signal path redundancy by automatic switching of back-up input signals RF sensing level alarm to monitor signal levels at the inputs. Operating frequencies cover 50 MHz to 2150 MHz. Covers both IF & L-band Manual & automatic AGC modes with a range of -15 db to +16 db in 0.5 steps Front panel LEDs allow monitoring of power supply & alarms status Modular design allows for easy system installations and expansions Remotely controlled via web browser interface Solid-state switches provide seamless (nanoseconds) switching speeds Maximize use of existing equipment with automated switching and scheduling; no need for dedicated equipment The rear panel design facilitates structured cable routing, eliminating confusing tangles of cable QRM System L-Band IF Specifications: Operating Frequency: 950-2150 MHz 50-200 MHz Configurations: 8x8 up to 32x32, 16x64, 64x16 8x8 up to 32x32, 16x64, 64x16 Frequency Response: Isolation: ± 1.5 db ± 0.4 db Over any 36 MHz channel 65 db input to input 60 db output to output 50 db input to output ± 2.25 db ± 0.6 db Over any 36 MHz channel 70 db input to input 60 db output to output 55 db input to output RF Input Power : -10 dbm to -70 dbm -10 dbm to -70 dbm Gain Range -15 db to +16 db in 0.5 db Steps -15 db to +16 db in 0.5 db Steps (Manual mode): Output AGC level: -10 dbm to -50 dbm -10 dbm to -50 dbm Max RF Output Power: -10 dbm -10 dbm Input P1dB: +2 dbm -3 dbm OIP3: +10 dbm +8 dbm Input Return Loss : +14 db +14 db Output Return Loss: +14 db +14 db Noise Figure : <18 db @ 0 db <9.5 db @ 16 db <18 db @ 0 db <9.5 db @ 16 db RF Connectors: BNC (50 or 75 Ω), Type F, SMA Connectors Impedance: 50 Ω or 75 Ω 50 Ω or 75 Ω AC Input Power: Local Control: Auto ranging 100-240 VAC, 50/60 Hz Front Panel Keypad with LCD Display PC Remote Control: Software: Mechanical: Power Consumption: RS-232, RS-485, SNMP, TELNET or TCP/IP via customer supplied PC, Web browser control Basic PC-compatible software and command protocol included 16 x 16 in 1RU: 1.75 H x 19 W x 18.5 D 80W 8

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QFM 16 x 16 RF Matrix Combining Switch with Q-Route & Q-SENSE The QFM is a full fan in RF matrix switch where multiple inputs can be routed to any or all outputs. The QFM features Quintech s latest Q-ROUTE & Q-SENSE technology, which provides maximum reliability with signal path redundancy and auto re-route capabilities. The QFM s operating frequency range covers 50 MHz to 2150 MHz. It also offers manual and automatic AGC modes with a range of -20dB to +8dB in 0.5 db steps with individual port control to support all modulation formats. The Front Panel LED s allow monitoring of power supply and alarm status information. Q-ROUTE provides internal signal path redundancy by automatically re-routing around a failed signal path Q-SENSE Provides external signal path redundancy by automatic switching of back-up input signals Manual or automatic input signal level balancing for optimal system performance RF sensing level alarm to monitor signal levels at the inputs. Operating frequencies cover both IF 50-200 MHz & L Band 950-2150 MHz Manual & automatic AGC modes with a range of -15 db to +16 db in 0.5 steps Front panel LEDs allow monitoring of power supply & alarms status Modular design allows for easy system installations and expansions Controllable locally via front panel keyboard or remotely controlled via web browser interface Solid-state switches provide seamless (nanoseconds) switching speeds Maximize use of existing equipment with automated switching and scheduling; no need for dedicated equipment The rear panel design facilitates structured cable routing, eliminating confusing tangles of cable QFM System L-Band IF Specifications: Operating Frequency: 950-2150 MHz 50-200 MHz Configurations: Frequency Response: Isolation: 8x8 to 32x32, 16x64 & 64x16 (with additional modules) ± 1.5 db ± 0.4 db Over any 36 MHz channel 65 db input to input 60 db output to output 50 db input to output 8x8 to 32x32, 16x64 & 64x16 (with additional modules) ± 2 db ± 0.6 db Over any 36 MHz channel 70 db input to input 60 db output to output 45 db input to output RF Input Power : -10 dbm to -70 dbm -10 dbm to -70 dbm RF Output Power : -10 dbm -10 dbm Input Balancing -12 dbm to +4 dbm in 0.5 steps -12 dbm to +4 dbm in 0.5 steps (Manual Mode) Gain Range -20 db to +8 db in 0.5 db Steps -20 db to +8 db in 0.5 db Steps (Manual mode): Output AGC level: -10 dbm to -50 dbm -10 dbm to -50 dbm Max RF Output Power: -10 dbm -10 dbm Input P1dB: +2 dbm +0 dbm OIP3: +10 dbm +8 dbm Input Return Loss : +13 db +14 db Output Return Loss: +14 db +13 db Noise Figure : <23 db @ 0 db <20 db @ 0 db RF Connectors: F. BNC 50, BNC 75, SMA Impedance: 50 Ω or 75 Ω 50 Ω or 75 Ω AC Input Power: Local Control: PC Remote Control: Software: Auto ranging 100-240 VAC, 50/60 Hz Front Panel Keypad with LCD Display RS-232, RS-485, SNMP, TELNET or TCP/IP via customer supplied PC. Basic PC Basic PC-compatible software and command protocol included Power Consumption: Mechanical: 77 W 16 x 16 in 1RU: 1.75 H x 19 W x 18.5 D 10

Q-Route & Q-Sense 8 Back Up Signal 8 1 1 Inputs Outputs Outputs Inputs Q-ROUTE Provides internal signal path redundancy by automatically re-routing around a failed signal path Q-SENSE A back-up input signal can be designated for each input. For example in the illustration input 8 is the back-up to input 1. In the event of a failed input signal, a backup input signal automatically replaces the failed signal. Full Fan-out (Splitting) and Full Fan-in (Combining) RF Matrix Routing To/From Satellite Modems UPLINK DOWNLINK V H Modems V H 1 2 3 1 1 2 2 3 3 4 4 5 5 6 6 7 7 8 8 1 2 3 4 QRM 2500 Full Fan-out Splitting Matrix 4 BUC 1 HPA BUC 2 HPA BUC 1 HPA BUC 1 HPA QFM 2500 Full Fan-in Combining Matrix Input 1 Splits to Outputs 1 & 2 Inputs 1 & 3 Combine to Output 1 Input 2 Splits to Outputs 3 & 6 Inputs 6 & 8 Combine to Output 2 Input 3 Splits to Outputs 4 & 5 Inputs 4 & 7 Combine to Output 3 Input 4 Splits to Outputs 7 & 8 Inputs 2 & 5 Combine to Output 4 11

MRM Series Modular, Full Fan-out (Splitting), Non-blocking RF Matrix Routing Systems with High Input Level Survivability for Military Applications The MRM Series of modular, high input level, programmable, non-blocking, full fan-out RF matrix routing systems are configured to route any of 4 to 16 inputs to any number of 4 to 16 outputs. These MRM series military grade matrix routers feature extreme linearity for high operating input power levels and survivability power levels for demanding defense electronics and communications applications. Operating frequency ranges for IF (20-200 MHz), Broadband (20-1000 MHz & 20-1100 MHz), and Satellite Extended L-band (800-2500 MHz), including AMPS, PCS & GSM bands Greatly enhance system reliability by eliminating patch panels Controllable locally via front panel keypad or remotely via computer and are compatible with most monitoring and control systems, freeing up staff to attend to more critical tasks Permit immediate routing of alternate signal sources Solid-state switching elements provide seamless (nanoseconds) switching speeds Maximize use of existing equipment with automated switching and scheduling; no need for dedicated equipment MRM Series RF matrix switches offer standard power redundancy and high isolation for optimum system reliability Easy access front panel keypad and LCD display provides convenient cross point identification MODEL MRM 0200 MRM 1000 MRM 1100 MRM 2500 Frequency 20-200 MHz 20-1000 MHz 20-1100 MHz 800-2500 MHz Impedance 50 Ω 50 Ω 50 Ω 50 Ω P1dB +13 dbm +30 dbm +12 dbm +15dBm Maximum Survivable Input Power +21 dbm +30 dbm +30 dbm +20 dbm Insertion Loss 0 ± 1 db max. 5 ± 2 db max. 0 ± 2 db 3 db Frequency Response 0.5 db max over any 70 MHz span ± 2 db ± 3 db ± 3 db 3 rd /2 nd Order Output Intercept Point +25 dbm/+40 dbm calculated +30 dbm/+55 dbm +25 dbm/+45 dbm +25 dbm/+30 dbm Isolation (Input to Input) 65 db 65 db 60 db 45 db 65 db 65 db 60 db 55 db Isolation (Output to Output - different input) Isolation (Output to Output - common 65 db 35 db 45 db 40 db input) Isolation (Input to Output) 70 db 55 db 55 db 45 db Input Return Loss 14 db min, 20 db typ. 9.55 db 13 db 11 db Output Return Loss 14 db min, 14 db typ. 9.55 db 14 db 10 db Noise Figure < 15 db max, 14 db typ. <14 db, 12.5 db typ. 14 db 14 db (800-2200 MHz) 16 db (2200-2500 MHz) Local Control Front panel keypad and LCD Screen Remote Control RS-232, RS-422, RS-485 and TCP/IP (100 base-t) via customer supplied PC. Configurations 4x4 up to 16x16 Call for availability of larger system configurations. Mechanical 3 RU (5.25 High x 19 Wide x 24 Deep). Call for more details: (800) 839-3658 Options Type F, SMA, BNC or N connectors Up to 10 additional MCM 064 remote control panels Summary alarm for power failure via contact closure. 12

SRM Series Modular, Full Fan-out (Splitting), Non-blocking RF Matrix Routing Systems SRM 2150/16x16 Operating frequency ranges for Broadband (5-1000 MHz), Intermediate Frequency (5-200 MHz) & Satellite (950-2150 MHz) Modular design allows for easy system installations and expansions Controllable locally via front panel keypad or remotely via computer and are compatible with most monitoring and control systems, freeing up staff to attend to more critical tasks Permit immediate routing of alternate signal sources Solid-state switches provide seamless (nanoseconds) switching speeds Maximize use of existing equipment with automated switching and scheduling; no need for dedicated equipment The rear panel design facilitates structured cable routing, eliminating confusing tangles of cable The SRM Series RF matrix routers allow any of 16 to 128 inputs carrying RF signals to be routed to any of 16 to 128 outputs. The systems utilize patented stack-and-tier technology which offer ultra-reliability and high-performance in a compact, modular design. This greatly reduces the size and complexity of the systems while greatly enhancing reliability by eliminating the need for patch panels and repetitive mechanical connections. The systems are controllable either locally via the front panel keypad or remotely via computer and are compatible with monitoring and control systems. SRM 2150/16x16 SRD 2150 Input Distribution Module SRO 2150 Output Distribution Module MODEL SRM 0200 IF Matrix SRM 1000 Broadband Matrix SRM 2150 L-band Matrix Operating Frequency: 5-200 MHz 5-1000 MHz 950-2150 MHz Insertion Loss: 0 ± 1.5 db 0 ± 2 db 0 ± 2 db Impedance: 75 Ω (50 Ω optional) 75 Ω (50 Ω optional) 75 Ω (50 Ω optional) P1dB: +5 dbm +6 dbm -7 dbm Frequency Response: ± 1 db ± 2 db ± 2 db Isolation (Input to Input): 60 db 45 db 45 db Isolation (Output to Output): 60 db 50 db 45 db Isolation (Input to Output): 65 db 50 db 40 db Return Loss: 14 db 10 db 10 db Control Response Time: 1.26 msec. 1.26 msec. 1.26 msec. Switching Speed: 40 nsec. 40 nsec. 40 nsec. Noise Figure: 14 db 13 db 15 db RF Connectors: Type F, 75 Ω (BNC 50 or 75 Ω, SMA or N connectors optional) Power Required: 100-240 VAC, 50/60 Hz. Dual AC inputs and dual internal PSUs for redundancy. Local Control: Front panel keypad with LCD display. PC Remote Control: RS-232, RS-422/485, IEEE 488 (GPIB), or TCP/IP 10 BaseT via customer-supplied PC, SNMP, TELNET Software: Basic PC compatible operating software and system protocol included with system. Inter-module Control Data: Synchronous Serial Mechanical: 3 RU (5.25 High x 19 Wide x 20 Deep) (Dimensions of SRD, SRM & SRO Modules*) Systems over 64x64 require 5 RU SRD and SRO modules. Call for more details. Notes: In systems between 64x64 and 128x128 Outputs, SRD and SRO modules are 5 RU (8.75 High x 19 Wide x 20 Deep). Options: Up to 10 additional UCM 064 remote control panels summary alarm for power failure via contact closure 13

SFM Series Modular, Full Fan-in (Combining), Non-blocking RF Matrix Routing Switches The SFM Series full fan-in matrix switch and switching subsystems allow multiple inputs carrying RF signals to be routed and combined to a single output. The systems utilize patented stack-and-tier technology, which offers reliable performance, in a compact, modular design. This greatly reduces the size and complexity of the system while greatly enhancing the system s reliability by eliminating the need for patch panels and repetitive mechanical connections. Operating frequency ranges for IF (5-200 MHz) & Satellite L-band (950-2150 MHz) Modular design allows for easy system installations and expansions SFM systems greatly enhance system reliability by eliminating patch panels and/or combiners Controllable locally via front panel keypad or remotely via computer and are compatible with most monitoring and control systems, freeing up staff to attend to more critical tasks Permit immediate routing of alternate signal sources Solid-state switches provide seamless (nanoseconds) switching speeds Maximize use of existing equipment with automated switching and scheduling; no need for dedicated equipment SFM 2150/16x16 SFD 2150 Input Distribution Module SFO 2150 Output Distribution Module MODEL SFM 0200 Fan-in IF Matrix SFM 2150 Fan-in L-band Matrix Operating Frequency: 5-200 MHz 950-2150 MHz Insertion Loss: 0 ± 1.5 db 1 ± 2 db @ 1550 MHz Impedance: 75 Ω (50 Ω optional) 75 Ω (50 Ω optional) P1dB: -5 dbm (each input) -5 dbm (each input) Frequency Response: ± 1 db ± 3 db Isolation (Input to Input): 55 db 45 db Isolation (Output to Output): 55 db 45 db Isolation (Input to Output): 55 db 40 db Noise Figure: 17 db 25 db Input Return Loss: 15 db 10 db Output Return Loss: 14 db 10 db Control Response Time: 1.26 msec. 1.26 msec. Switching Speed: 40 nsec. 40 nsec. RF Connectors: Power Required: Local Control: PC Remote Control: Software: Inter-module Control Data: Mechanical: Options: Type F, 75 Ω (BNC 50 or 75 Ω, SMA or N connectors optional) 100-240 VAC, 50/60 Hz. Dual AC inputs and dual internal PSUs for redundancy. Front panel keypad with LCD display. RS-232, RS-422/485, IEEE 488 (GPIB), or TCP/IP 10 BaseT via customer-supplied PC, SNMP, TELNET System protocol included with system. Synchronous Serial 3 RU (5.25 High x 19 Wide x 20 Deep) (Dimensions of SFD, SFM & SFO Modules*) Systems over 64x64 require 5 RU SFD and SFO modules. Call for more details. Up to 10 additional UCM 064 remote control panels Summary alarm for power failure via contact closure 14

MRF Series Full Fan-out (Splitting), Non-blocking RF Matrix Routing Switches Quintech's MRF Series of programmable, non-blocking, full fan-out RF matrix routing systems, when fully integrated, are configured to route any of 2, 4, 8 or 12 inputs carrying RF signals to any number of 2 or 4 outputs. These multi-octave systems utilize patented stack-and-tier technology offering compact, ultra-reliable, high performance realizations of radio frequency (RF) switching technology very cost effectively. This advanced realization greatly reduces the size, complexity and cost of large broadband RF routing systems, while enhancing their performance and reliability through a drastic reduction in the number of switching modules, component count, connectors and interconnection cables. Systems are DC-blocking. Operating frequency ranges for Broadband Cable (5-1000 MHz), IF (5-200 MHz) and Satellite (950-2150 MHz) Controllable locally via front panel keypad or remotely via computer (serial or TCP/IP, 10 base-t) and are compatible with most monitoring and control systems Maximize use of existing equipment with automated switching and scheduling; no need for dedicated equipment Easy access front panel keypad and LCD display provide convenient cross point identification Lithium battery maintains cross point configuration in the event of an interruption in power MRF 2150/12x2 MRF 2150/12x4 MODEL Inputs Outputs Rack Units MRF 2150/4x4 4 4 2 MRF 2150/8x2 8 2 1 MRF 2150/8x4 8 4 2 MRF 2150/12x2 12 2 1 MRF 2150/12x4 12 4 2 MRF 200/4x4 4 4 2 MODEL MRF 0200 MRF 1000 MRF 2150 Operating Frequency: 5-200 MHz 5-1000 MHz 950-2150 MHz Impedance: 75Ω standard (50Ω optional) 75Ω standard (50Ω optional) 75Ω standard (50Ω optional) P1dB: +6 dbm 7.5 dbm +3 dbm Insertion Loss: ± 1 db 0 ± 2 db 0 ± 2 db Input Return Loss: 12 db 15 db 14 db Output Return Loss: 10 db 10 db 12 db Frequency Response: ± 0.5 db ± 2 db ± 3 db Isolation (Input to Input): 60 db 50 db 45 db Isolation (Output to Output): 60 db 50 db 45 db Isolation (Input to Output): 60 db 45 db 40 db Control Response Time: 1.26 msec 1.26 msec 1.26 msec Switching Speed: 40 nsec 40 nsec 40 nsec RF Connectors: Type F, 75 Ω (BNC optional) Power Required: Auto-ranging 100-240 VAC, 50/60 Hz Local Control: Front panel keypad with LCD display Remote Control: RS-232, RS422/485 or TCP/IP (10 base-t) via customer-supplied PC Software: Basic PC compatible software & command protocol included. Mechanical: 1 RU (1.75 H x 19 W x 20 D) or 2 RU (3.5 H x 19 W x 20 D), depending on configuration. 15

L-band Matrix Routing For Broadcasters Small Scale L-band Matrix Routing 16

SRR & SRX Series RF Routing Switches SRR & SRX RF Routers greatly enhance monitoring reliability by eliminating patch panels and repetitive mechanical connections SRR 070/2x1 provides an A/B switch capable of passing ASI signals Allow for regularly scheduled monitoring of network components via spectrum analyzer and other test equipment SRX routers grow with your needs from 16x1 up to 128x1 The SRR Series RF Routers & SRX Series Modular (up to 128x1) RF Routers are uni-directional, programmable RF routing switches that provide RF signal routing capabilities. They are equally suitable for baseband, data, IF, or RF switching environments. They are perfect for centralized test & measurement applications in networks monitoring large numbers of RF signals. Quintech s RF routers are a fast and convenient method of identifying network problems from a single location. SRR 2150/16x1 RF Routing Switch SRR 070/2x1 RF Routing Switch SRX 2150/16x1 Modular RF Routing Switch w/ MCP 128 Controller MODEL SRR 2150 SRR 1000 SRX 2150 SRX 1000 SRR 0070 Inputs x Outputs: 8x1, 1x8, 16x1, 1x16 8x1, 1x8, 16x1, 1x16 16x1 up to 128x1 (16x1 modules) 16x1 up to 128x1 (16x1 modules) Operating Frequency: 950-2150 MHz 5-1000 MHz 950-2150 MHz 5-1000 MHz 70 ± 20 MHz Impedance: 75 Ω 75 Ω 75 Ω 75 Ω 75 Ω P1dB: + 4.5 dbm +9 dbm +8 dbm +10 dbm +13 dbm Insertion Loss: 0 db ± 2 db 0 db ± 2 db 0 db ± 2 db @ 1550 MHz 0 db ± 1 db @ 500 MHz 1 ± 1 db Frequency Response: ± 3.0 db ± 2.0 db ± 4 db ± 1 db ± 1 db Input Return Loss: 13 db 12 db 12 db 12 db 19 db Output Return Loss: 11 db 11 db 10 db 11 db 25 db Isolation: 45 db 50 db 40 db 60 db > -60 db Input-to- Input Local Control: Front panel keypad w/ LCD display Remote Control: RS-232, RS422/485, or TCP/IP via customersupplied PC Front panel keypad w/ LCD display RS-232, RS422/485, or TCP/IP via customersupplied PC Local and remote via MCP 128/(8x1) control module RS-232, RS422/485, or TCP/IP via customersupplied PC Local and remote via MCP 128/(8x1) control module RS-232, RS422/485, or TCP/IP via customersupplied PC 2x1 Front panel keypad w/ LCD display RS-232, RS422/485, or TCP/IP via customer-supplied PC Power Requirements: 100-240 VAC, 60/50 Hz 100-240 VAC, 60/50 Hz 100-240 VAC, 60/50 Hz 100-240 VAC, 60/50 Hz 100-240 VAC, 50/60 Hz Power Consumption: 11 W 5 W 5 W per box 5W per box 11 W RF Connectors: Control Module Connectors: Expansion Module Connectors: Type F, 75 W (BNC optional) Mechanical: 1 RU (1.75 H x 19 W x 18 D) Type F, 75 W (BNC optional) Type F, 75 W (BNC optional) N/A N/A D-9 Female (Control In), D-9 Female (Control Out) RJ45 (Ethernet) N/A N/A D-9 Female (Control In), D-9 Female (Control Out) 1 RU (1.75 H x 19 W x 18 D) 1 RU (1.75 H x 19 W x 18 D) per module Type F, 75 W (BNC optional) D-9 Female (Control In), D-9 Female (Control Out) RJ45 (Ethernet) D-9 Female (Control In), D-9 Female (Control Out) 1 RU (1.75 H x 19 W x 18 D) per module BNC, 75 Ω RS-232, RS-422/485, or TCP/IP via customer-supplied PC N/A 1 RU (1.75 H x 19 W x 18 D) 17

SRM 1000 (Bi-directional) Modular Passive (Bi-directional) Broadband Matrix Router Ideal for Automated Test SRM 1000/16x16 The SRM1000 is a passive matrix routing switch and switching subsystem that allows any of 16 inputs carrying RF signals to be routed to any of 16 outputs. The system utilizes patented stack-and-tier technology which offers ultra reliable, high-performance, in a compact, modular design. This greatly reduces the size and complexity of the system while greatly enhancing the system s reliability by eliminating the need for patch panels and repetitive mechanical connections. The system is controllable either locally via the front panel keypad or remotely via computer and is compatible with most monitoring and control systems. Ideal for automated testing of HFC network equipment including CMTS, set top boxes and peripheral equipment Operates over cable HFC 5-1000 MHz networks Controllable locally via front panel keypad or remotely via computer and are compatible with most monitoring and control systems, freeing up staff to attend to more critical tasks The SRM 1000 passive broadband matrix is configured to bidirectionally route any input carrying RF signals to any number of outputs. The modular, expandable design allows for easy future system expansions Maximize use of existing equipment with automated switching and scheduling; no need for dedicated equipment MODEL Operating Frequency: Insertion Loss: Impedance: P1dB: Frequency Response: Isolation (Input to Input): Isolation (Output to Output): Isolation (Input to Output): Return Loss: Control Response Time: Switching Speed: Group Delay: RF Connectors: Power Required: Local Control: PC Remote Control: Software: Inter-module Control Data: Mechanical: Notes: Options: SRM 1000 Broadband Matrix 5-1000 MHz 22 ± 2 db 75 Ω (50 Ω optional) +20 dbm ± 2 db 38 db 60 db 60 db 10 db 1.26 msec. 40 nsec. 11.5 ns absolute, 4 ns variation Type F, 75 Ω (BNC 50 or 75 Ω, SMA or N connectors optional) 100-240 VAC, 50/60 Hz. Dual AC inputs and dual internal PSUs for redundancy. Front panel keypad with LCD display. RS-232, RS-422/485, IEEE 488 (GPIB), or TCP/IP 10 BaseT via customer-supplied PC, SNMP, TELNET Basic PC compatible operating software and system protocol included with system. Synchronous Serial 3 RU (5.25 High x 19 Wide x 20 Deep) (Dimensions of SRD, SRM & SRO Modules*) * Systems over 64x64 require 5 RU SRD and SRO modules. Call for more details. In systems between 64x64 and 256x256, SRD and SRO modules are 5 RU (8.75 High x 19 Wide x 20 Deep). Up to 10 additional UCM 064 remote control panels summary alarm for power failure via contact closure 18

1 2 3 4 5 * F1 F2 6 7 8 9 0 # F3 F4 SRB 2000/16x16 BI-DIRECTIONAL RF MATRIX ROUTER 1 2 3 4 5 * F1 F2 6 7 8 9 0 # F3 F4 SRB 2000/16x16 BI-DIRECTIONAL RF MATRIX ROUTER 1 2 3 4 5 * F1 F2 6 7 8 9 0 # F3 F4 SRB 2000/16x16 BI-DIRECTIONAL RF MATRIX ROUTER 1 2 3 4 5 * F1 F2 6 7 8 9 0 # F3 F4 SRB 2000/16x16 BI-DIRECTIONAL RF MATRIX ROUTER 1 2 3 4 5 * F1 F2 6 7 8 9 0 # F3 F4 SRB 2000/16x16 BI-DIRECTIONAL RF MATRIX ROUTER 1 2 3 4 5 * F1 F2 6 7 8 9 0 # F3 F4 SRB 2000/16x16 BI-DIRECTIONAL RF MATRIX ROUTER 1 2 3 4 5 * F1 F2 6 7 8 9 0 # F3 F4 SRB 2000/16x16 BI-DIRECTIONAL RF MATRIX ROUTER 1 2 3 4 5 * F1 F2 6 7 8 9 0 # F3 F4 SRB 2000/16x16 BI-DIRECTIONAL RF MATRIX ROUTER SRB 2000 Passive (Full Duplex) RF Matrix Routing System For ATE The SRB 2000 is capable of routing any RF signal (820-2170 MHz) simultaneously & bi-directionally (full duplex). This allows any number of 16 A ports to be routed to any number of 16 B ports, and vice versa. It is perfect for use in applications requiring automated test equipment (ATE) Designed specifically for ATE applications for testing AMPS and PCS hand-off simulation Provides full duplex, bi-directional simultaneous signal path routing capabilities Provides flexibility in simulation of multiple cell site hand off applications Replaces cumbersome patch panel configurations Available in several configurations from a 16x16 to 256x256 Expandable to meet ever changing test load requirements, easily expandable by adding additional modules MODEL SRB 2000 Bi-directional AMPS/PCS Matrix Operating Frequency: 820-960 MHz (A MPS) and 1900-2170 MHz (PCS) Configuration (Inputs x Outputs): 16x16 Insertion Loss: Impedance: Maximum input power: Frequency Response: ± 2 db Isolation (Input to Output): Return Loss: Control Response Time: Switching Speed: RF Connectors: Power Required: Local Control & PC Remote Control: 820-960 MHz (AMPS) 33 db 1900-2170 MHz (PCS) 33 db 50 Ω -10 dbm per port 65 db > 11 db 1.26 msec. 40 nsec. SMA, 50 Ω (BNC, N optional) 100-240 VAC, 50/60 Hz Local and Remote Control via 1 RU control module w/ LCD and Keypad, RS-232, RS-422/485, or TCP/ IP via customer-supplied PC Mechanical: 6 RU (10.5 H x 19 W x 20 D) *Specifications may vary with connector type. See data sheet for specific performance data Mob 1-16 Mob 17-32 Mob 33-48 Mob 49-64 Mob 65-84 Mob 85-96 Mob 97-112 Mob 113-128 1 16 1 16 1 16 1 16 1 16 1 16 1 16 1 16 1 16 1 16 1 16 1 16 1 16 1 16 1 16 1 16 8:1 Combiner 8:1 Combiner 8:1 Combiner 8:1 Combiner Faces 1-8 Faces 121-128 Faces 1-8 Faces 121-128 Prog. Attenuator Prog. Attenuator 8:1 Combiner Cell Sector 19

LTE 3000 16x16 LTE RF Switch The LTE 3000 is a passive full fan out matrix switch which allows any of the 16 inputs to be routed to any or all outputs. The operating frequency range of the switch covers 700 MHz to 3 GHz. It is perfect for use in LTE, WiMax and 4G test applications. It automates test labs by replacing cumbersome patch panels and can be controlled easily via the front panel or remotely via a web browser interface. The basic configuration for the LTE 3000 is a 16x16 switch which can be easily expanded to larger configurations. The LTE 3000 meets strict specifications required in a lab environment to ensure no signal degradation. Designed specifically for use in LTE, WiMax & 4G test applications Wide operating frequency range covers 700 MHz -3 GHz Automated testing process by replacing cumbersome patch panels Easily expandable to larger configurations to meet changing test lab environments High performance to meet signal specs in lab environment Specifications: LTE 3000 Operating Frequency: Matrix Type: Switching Technology: VSWR: Insertion Loss: Isolation: RF input: Input IP3: Input P1dB: Attenuation: Switching time: RF Connector: AC Power Requirements: Power Consumption: Local Control: Remote Control: Software: 700-3000 MHz Non-blocking (full fan-out) Solid State 1.4:1 Typical, 1.5:1 Minimum 20 db min, 22 db typical, 24 db max @ 3000 MHz Output to output same input >25 min, +30 typical +30 dbm (1 watt) >/= +60 dbm min. >/= +40 dbm min. 0-30 db Attenuation in 1 db steps <20 us 90 milliseconds typical N, 50 Ω 85-264 AC, 50/60 Hz <10 Watts Front panel keypad with LCD TCP/IP via customer supplied PC PC compatible operating software and protocol (included with system) Mechanical: 3RU (5.25 H x 19 W x 20 D) 20

RSS 1750 2-to-24 Substitution Switch (950-1750 MHz) The RSS175024X24NE000 is a 2-to-24 substitution switching system that provides solid-state L-Band switching for a single set of antenna modulators (up to 24 per antenna). It offers 24 sets of primary inputs and outputs as well as two auxiliary modulator inputs, each one of which can be substituted for any one of the 24 primary inputs. Control and status is provided either locally via the front panel keypad or remotely through a serial or Ethernet interface. Each of the primary modulator paths through the switch have guaranteed zero-loss whereas the auxiliary modulator (substitution) path has an additional 3.5 db gain to compensate for the external power divider loss. Any non-selected paths are internally terminated into 50 ohms. Greatly enhances flexibility in operations by substituting any of the 24 output signals with either of the two auxiliary inputs Ideally suited for teleport or uplink applications requiring the highest level of signal integrity & flexibility Auxiliary ports ideally suited for redundancy and test applications Auxiliary ports is internally terminated automatically when in substitution mode Specifications: Primary Path Auxiliary Path Operating Frequency: 950-1750 MHz 950-1750 MHz Insertion Loss: +2.0 db ± 1.0 db + 6 db ± 1.3 db Impedance: 50 Ω 50 Ω Flatness: + 0.5 db (over any 250 MHz) + 0.5 db (over any 40 MHz) Isolation: >40 db (47 db typical) >40 db (47 db typical) Return Loss: 16 db 15 db P1dB: + 5 dbm + 5 dbm Noise Figure: 9 db 9 db Group Delay: < 1 nsec. < 1 nsec. RF Connectors: Type N (female), 50 Ω Type N (female), 50 Ω Power Required: 100-240 V~ auto ranging, 47-63 Hz, w GND lug Dual Redundant Power Supplies 100-240 V~ auto ranging, 47-63 Hz, w GND lug Dual Redundant Power Supplies Power Consumption: Front panel keypad with LCD display. Front panel keypad with LCD display. Monitor and Control: Ethernet and RS-422 Ethernet and RS-422 Ambient Temperature: 0 to +55 C 0 to +55 C Mechanical: 5 RU (8.75 H x 19 W x 20 D) 5 RU (8.75 H x 19 W x 20 D) Weight: 28 lbs. gross (boxed), 20.5 lbs. net 28 lbs. gross (boxed), 20.5 lbs. net 21

RFS Series RF Sensing Redundancy Switches Redundancy switches provide automatic backup for signal continuity thereby maintaining your revenue stream Facilitates scheduled maintenance activity with no downtime Eliminates the need for emergency service, permitting maintenance on a managed schedule Rear panel mounted barrier strip provides the interface for a contact closure summary alarm and remote override The threshold is adjustable via front panel for adjustment sensitivity and flexibility Ideal for redundancy switching applications for failed LNB s, up converters, down converters, antenna rain fade and unmanned facilities Ultra-reliable 1:1 redundancy for backup of fiber links The RFS 2150/2 with serial control provides the ability to remotely control the RF sensing switches via RS232 RFS 2150/2 L-band Sensing Redundancy Switch RFS 0070/2 IF Sensing Redundancy Switch RFS 2150/2 Dual RF Sensing Switch w/ LNB Power and Serial Control The RFS Series are RF sensing redundancy switches which detect the presence of primary RF signal feed and provide the ability to switch to a backup (secondary) signal upon the loss of the primary. These highly reliable RF switches are ideal for redundancy applications and scheduled maintenance projects. They are perfect for unmanned sites and can help to eliminate the need for emergency restoration service. In addition, an RS-232 DB-9 port has been included through which the RF sensing switch can be remotely controlled. MODEL RFS 2150 RFS 0070 Operating Frequency: 950-2150 MHz 5-1000 MHz Impedance: 75 Ω 75 Ω Detected Frequency: 950-2150 MHz 70 MHz ± 1 MHz Level: -60 dbm to -20 dbm, adjustable -50 to -20 dbm adjustable Insertion Loss: 2.5 db ± 1 db 0.5 db + 0.5 db Frequency Response: ±1.0 db ± 1.0 db Return Loss: 12 db 12 db (input & output) Isolation: 40 db 40 db Inputs/Outputs: Two (2x1) Two (2x1) Manual Override: Front panel mounted slide switch Contact closure to ground Threshold Adjust: Front panel mounted up/down push buttons Front panel potentiometer Alarm: Form C contact closure Form C contact closure Power Requirements: 100-240 VAC auto ranging, 60/50 Hz 100-240 VAC auto ranging, 60/50 Hz Power Consumption: 21 W 8 W RF Connectors: Mechanical: Options: Type F, 75 W (BNC optional) 1 RU (1.75 H x 19 W x 14 D) Single or dual configuration, LNB power (18-24 VDC) and Serial control Type F, 75 W (BNC optional) 1 RU (1.75 H x 19 W x 14 D) Single, dual or quad configuration 1:1 L-band Fiber Link Redundancy Switching 22

RSP 2150/2 RF Sensing Switch w/hot-swappable DC Power Supplies The RSP detects loss in signal level from LNB s & switches to the secondary / back-up if the primary signal level falls below set threshold Hot swappable power supplies to redundant power LNB s LNB power feature provides two separately fused power supply modules, each capable of handling 2.5 amps AC and DC power status is indicated via the front panel mounted LEDs The RSP2150 RF sensing switch provides two (2x1) L-Band sensing switches for LNB redundancy of both horizontal and vertical polarities on a TVRO satellite. In addition, it provides 24 VDC, enough to power four LNBs. Each L-Band sensing switch contains a single (2x1) RF detector switch which detects the presence of a 950-2150 MHz LNB satellite signal on the primary relay that terminates the off path with 75 Ω. The primary RF input is filtered, amplified and detected to operate the relays. When the input level is above the preset threshold, which is adjustable using the rear panel mounted push buttons, the relays are de-energized and will pass RF even under a no power condition. When the signal falls below the preset threshold, the relay is energized and the secondary signal path is selected. A front panel has been included for each sensing switch to allow manual override to the secondary input. The rear panel has been equipped with 15-pin connectors that provide an interface for contact closure alarms and remote override via contact enclosure. MODEL RSP 2150 Operating Frequency: 950-2150 MHz Impedance: 75 Ω Detected Frequency: 950-2150 MHz RF detection Level: -60 dbm to -20 dbm, adjustable Maximum input level: +10 db Maximum Input Level +20 db (No Damage): Insertion Loss: 2.5 db ± 1.25 db Frequency Response: ±1.0 db Return Loss: 12 db Isolation: 40 db Inputs/Outputs: Two (2x1) Manual Override: Front panel mounted slide switch Threshold Adjust: Front panel mounted up/down push buttons Alarm: Form C contact closure Power Requirements: 100-240 VAC, 60/50 Hz Power Consumption: 80 W RF Connectors: Type F, 75 W Mechanical: 2 RU (3.50 H x 19 W x 14 D) Weight : 7.2 lbs gross (boxed) 4.6 lbs net 23

SRF 1750 Satellite News Gathering (SNG) Receiver Switch The SRF 1750 Series provides a cost-effective monitoring solution for Satellite News Gathering (SNG) trucks and distance learning applications Space and weight-saving 1 RU design Convenient front panel slide switches for easy switching between vertical and horizontal satellite feeds Eliminates need for repetitive manual connects and disconnects Provides continuous power to LNB s regardless of receiver (IRD) status The SRF 1750 provides power insertion to two LNB s and output to five satellite receivers. Selection of either the vertical or horizontal input will be via front panel mounted slide switches for each of the five satellite receivers. The SRF 1750 switch unit is rack mounted in a 19 inch, single RU enclosure. Power is provided through an internal DC power supply, with one AC input power cord. SNG Receiver Switching SRF 1750/2x4 SNG Receiver Switch SRF 1750/2x5 SNG Receiver Switch SRF 1750/2x8 SNG Receiver Switch MODEL SRF 1750 Available Configurations: 2x4, 2x5, 2x8 Operating Frequency: 950-2150 MHz Impedance: 75 Ω P1dB: -10 dbm Port-to-Port Isolation (Input): 45 db Insertion Loss/Gain: 1.5 db ± 1 db Frequency Response: ± 1.0 db Input Return Loss: 12 db Output Return Loss: 11 db Power Requirements: 100-240 VAC, 60/50 Hz Power Consumption: 25 W @ 240 VAC RF Connectors: Type F, 75 W (BNC optional) Mechanical: 1 RU (1.75 H x 19 W x 18.5 D) 24

AMP 2150 L-band Line Amplifier The AMP 2150 Series L-band Line Amplifiers provide high gain and DC path continuity. These amplifiers are manufactured utilizing highly reliable surface mount technology and advanced micro-strip RF circuitry and are typically deployed for multiple receiver installations in satellite telecommunication networks to boost L-band signal paths through long coaxial cable runs. Housed in a rugged, weatherproof extruded housings, the AMP Series amplifiers are the optimum choice for any L-band satellite communications application, indoors or out. High (adjustable) gain with controlled bandwidth Housed in a rugged, weatherproof extruded aluminum enclosure or in a 1 RU rack mount chassis Passes a 10 MHz reference Sensing capability AMP 2150 Dual L-band Line Amplifier AMP 2150/4 Quad L-band Line Amplifier MODEL AMP 2150 (wall mount) AMP 2150 (Dual rack mounted) AMP 2150 (Quad rack mounted) Operating Frequency: 700-2150 MHz 700-2150 MHz 700-2150 MHz Gain Range: 0 db to +24 db adjustable by internal pot (factory-preset to 20 db) 0 db to +24 db, adjustable from the front panel (factory-preset to 20 db) 0 db to +24 db, adjustable from the front panel (factory-preset to 20 db) 10 MHz Insertion Loss: 1.5 db + 0.5 db @ +20 db gain 1.5 db + 0.5 db @ +20 db gain 1.5 db+0.5db@+20db gain Frequency Response: + 1 db +1 db ±1 db Noise Figure: 8 db at +20 db gain 8 db at +20 db gain 8 db at +20 db gain Input P1dB: -10 dbm -10 dbm -10 dbm IIP3: +4.5 dbm (with 20 db gain and Pin = -30 dbm) +4.5 dbm (with 20 db gain and Pin = -30 dbm) +4.5 dbm (with 20 db gain and Pin = -30 dbm) Group Delay: + 0.3 ns + 0.3 ns + 0.3 ns Input Return Loss: 12 db 12 db 12 db Output Return Loss: 12 db 12 db 12 db Power Requirements: +18 to +24 VDC, 190 ma 100-240 VAC 100-240 VAC, 50/60Hz (auto ranging) Power Consumption: 4.6W 4.6W 4.6W RF Connectors: Type F, 75 Ω (BNC optional) Type F, 75 Ω (BNC optional) Type F, 75 Ω Power Connectors: Via Output Connector 2-pin quick disconnect (AC optional) 2-pin quick disconnect (AC optional) Operating Temperature: -40 to +60 C +10 to +60 C +10 to +60 C Mechanical: 5.00 L x 3.25 W x 1.25 H 1RU (1.75 H x 19 W x 6.5 D) 1RU (1.75 H x 19 W x 14 D) Weight: 0.5 lbs 3.6 lbs. gross (boxed), 2.6 lbs. net 9 lbs. gross (boxed), 8 lbs. net Inline L-band Amplification 25

RPS Series 16-Port Redundant Power Supplies Centralized redundant power source for up to 16 active devices Two hot-swappable (shared) PSUs on individual drawers Eliminates costly downtime Allows scheduled maintenance of receivers without interrupting LNB power Both supplies in the RPS are monitored by a summary alarm which employs a serial RS-422 interface. The RPS2460 Series Redundant Power Supply provides a centralized power source for as many as 16 LNAs, LNBs, upconverters, down converters, and line amplifiers. The unit is comprised of two separately fused power supply modules configured for nominal voltage or +24 VDC @ 6.0 amps and has been designed for international use with an input voltage of 100-240 VAC, 50/60 Hz. The power supply modules are on individual drawers to provide easy replacement of a failed module. Both supplies are monitored by a summary alarm which employs a serial RS-422 interface. On the rear panel, green LEDs indicate power status for each of the input ports. Each input port is capable of supplying up to 900 ma through an automatically resetting circuit breaker. Loads in excess of 900 ma will trip the breaker, shutting down the input port until the current demand drops below the trip point. RPS Q Series RPS B Series RPS F Series MODEL RPS24/6.0F RPS24/6.0B RPS24/6.0Q RPS18/4.5F RPS18/4.5B RPS18/4.5Q Frequency: 270-2150 MHz 270-2150 MHz NA 270-2150 MHz 270-2150 MHz NA Insertion Loss: 0.5 ± 0.5 db 0.5 ± 0.5 db NA 0.5 ± 0.5 db 0.5 ± 0.5 db NA Frequency Response: ± 0.5 db ± 0.5 db NA ± 0.5 db ± 0.5 db NA Return Loss: 14 db 14 db NA 14 db 14 db NA Output Voltage: +24 VDC +24 VDC +24 VDC +18 VDC +18 VDC +18 VDC Output Current: 900 ma on any single port. Total of all ports not to exceed 6.0A 900 ma on any single port. Total of all ports not to exceed 6.0A 900 ma on any single port. Total of all ports not to exceed 6.0A 900 ma on any single port. Total of all ports not to exceed 4.5A 900 ma on any single port. Total of all ports not to exceed 4.5A 900 ma on any single port. Total of all ports not to exceed 4.5A Power Requirements: Power Consumption: 100-240 VAC, 50/60 Hz 50W no load 210 W full load 100-240 VAC, 50/60 Hz 50W no load 210 W full load 100-240 VAC, 50/60 Hz 50W no load 210 W full load 100-240 VAC, 50/60 Hz 46W no load 210 W full load 100-240 VAC, 50/60 Hz 46W no load 210 W full load 100-240 VAC, 50/60 Hz 46W no load 210 W full load Input Connectors: Type F, 75 Ω BNC, 75 Ω or 50 Ω 2-Pin Quick Disconnects Type F, 75 Ω BNC, 75 Ω or 50 Ω 2-Pin Quick Disconnects Output Connectors: Type F, 75 Ω BNC, 75 Ω or 50 Ω 2-Pin Quick Disconnects Type F, 75 Ω BNC, 75 Ω or 50 Ω 2-Pin Quick Disconnects Mechanical: 2 RU (19 W x 20 D x 3.5 H) Weight: 17.8 lbs. gross (boxed), 13.8 lbs. net 2 RU (19 W x 20 D x 3.5 H) 17.8 lbs. gross (boxed), 13.8 lbs. net 2 RU (19 W x 20 D x 3.5 H) 17.8 lbs. gross (boxed), 13.8 lbs. net 2 RU (19 W x 20 D x 3.5 H) 17.8 lbs. gross (boxed), 13.8 lbs. net 2 RU (19 W x 20 D x 3.5 H) 17.8 lbs. gross (boxed), 13.8 lbs. net 2 RU (19 W x 20 D x 3.5 H) 17.8 lbs. gross (boxed), 13.8 lbs. net 26

LS 2150 Active & Passive Series Active (Amplified - Zero Loss) & Passive L-band Splitters The LS 2150A series of active (unity gain or zero loss) L-band (950-2150 MHz) splitters permit simple splitting of either the vertical or horizontal signals into multiple branches. LS12 2150A 12-way Active L-band Splitter LS32 2150A 32-way Active L-band Splitter Convenient, centralized rack mount designs improve cable management Microstrip design provides better performance and reliability Larger configurations eliminate cascaded combiners for better performance Active (zero loss) splitters allow for ease in RF budget design Custom configurations for optimization of rack space and increased flexibility Greatly improves cable management and aesthetics by allowing for easy access to cable routing and easing identification of cabling Reduces cable connector failures by eliminating the need for frequent manual connects/disconnects LS 2150 Active LS 2150 Passive LS64 2150A 64-way Active L-band Splitter MODEL LS04 2150A LS08 2150A LS12 2150A LS16 2150A LS24 2150A LS32 2150A LS48 2150A LS64 2150A Configuration 1x4 1x8 1x12 1x16 1x24 1x32 1x48 1x64 Frequency 950-2150 MHz 950-2150 MHz 950-2150 MHz 950-2150 MHz 950-2150 MHz 950-2150 MHz 950-2150 MHz 950-2150 MHz Impedance 75 W 75 W 75 W 75 W 75 W 75 W 75 W 75 W P1dB +3dBm -10 dbm -5 dbm 0 dbm -10 dbm -10 dbm -10 dbm -10 dbm Insertion Loss 0 ± 2 db 0 ± 2 db 0 ± 2 db 0 ± 2 db 0 ± 2 db 0 ± 2 db 0 ± 2 db 0 ± 2 db Frequency Response ± 1 db ± 2 db ± 2 db ± 2 db ± 2 db ± 2 db ± 2 db ± 2 db Isolation 18 db 18 db 18 db 18 db 18 db 18 db 18 db 18 db Input Return Loss 14 db 13 db 13dB 14 db 12 db 12 db 12 db 12 db Output Return Loss 15 db 16dB 12 db 12 db 12 db 12 db 12 db 12 db RF Connectors Type F, 75 W Type F, 75 W Type F, 75 W Type F, 75 W Type F, 75 W Type F, 75 W Type F, 75 W Type F, 75 W Power Requirements 18-24 VDC via 2-pin quick connect 18-24 VDC via 2-pin quick connect 18-24 VDC via 2-pin quick connect MODEL LS02 2150P LS04 2150P LS08 2150P LS12 2150P LS16 2150P LS24 2150P LS32 2150P Frequency: 950-2150 MHz 950-2150 MHz 950-2150 MHz 950-2150 MHz 950-2150 MHz 950-2150 MHz 950-2150 MHz Impedance: 75 Ω 75 Ω 75 Ω 75 Ω 75 Ω 75 Ω 75 Ω Insertion Loss: 4 db ± 0.5 db 8 ± 1 db 11 ± 1.5 db 17 ± 2 db 17 db ± 2 db 21 ± 2 db 22 ± 2 db Frequency Response: ± 0.5 db ± 1 db ± 1 db ± 2 db ± 2 db ± 2 db ± 2 db Isolation: 18 db 18 db 18 db 20 db 18 db 20 db 20 db Input Return Loss: 11 db 13 db 12 db 14 db 14 db 10 db 10 db Output Return Loss: 15 db 14 db 14 db 14 db 14 db 13 db 13 db RF Connectors: Type F, 75 Ω Type F, 75 Ω Type F, 75 Ω Type F, 75 Ω Type F, 75 Ω Type F, 75 Ω Type F, 75 Ω Mechanical: 1 RU (1.75 H x 19 W x 6.5 D) 1 RU (1.75 H x 19 W x 6.5 D) 1 RU (1.75 H x 19 W x 6.5 D) 1 RU (1.75 H x 19 W x 6.5 D) 1 RU (1.75 H x 19 W x 6.5 D) 2 RU (3.5 H x 19 W x 14 D) 2 RU (3.5 H x 19 W x 14 D) 18-24 VDC via 2-pin quick connect 18-24 VDC via 2-pin quick connect 18-24 VDC via 2-pin quick connect 18-24 VDC via 2-pin quick connect 18-24 VDC via 2-pin quick connect LNB Power 18 VDC 18 VDC 18 VDC 18 VDC 18 VDC 18 VDC 18 VDC 18 VDC Power Consumption 6 W 6 W 9 W 6 W 13 W 12 W 13 W 18 W Mechanical 1 RU (1.75 H x 19 W x 6.5 D) 1 RU (1.75 H x 19 W x 6.5 D) 1 RU (1.75 H x 19 W x 6.5 D) 1 RU (1.75 H x 19 W x 6.5 D) 2 RU (3.5 H x 19 W x 14 D) 2 RU (3.5 H x 19 W x 14 D) 3 RU (5.25 H x 19 W x 20 D) 3 RU (5.25 H x 19 W x 20 D) Options Multiple units in a common chassis (dual, quad, etc.) 27

LC 2150A Series & LSC 1000P Series Active (Amplified - Zero Loss) L-band Combiners Passive Broadband Splitter/Combiners LC12 2150A 12-way Active L-band Combiner LC24 2150A 24-way Active L-band Combiner The LC 2150A Series commercial quality active L-band combiners meet strict level, match, and loss specifications achieved through the use of Quintech s proprietary microstrip and SMT technology. These unity gain combiners operate over the Satellite L-band (950-2150 MHz) frequency range and enable the combining of RF signals with repeatable performance over the entire frequency range and across all I/O ports. The LSC 1000P Series are commercial quality passive broadband RF splitters / combiners that meet strict level, match, and loss specifications achieved through the use of Quintech s proprietary microstrip and SMT technology. They operate over the 5-1000 MHz frequency range and enable the splitting or combining of RF signals with repeatable performance over the entire frequency range and across all I/O ports. LSC04 1000P 4-way Passive Broadband Splitter/Combiner LSC32 1000P 32-way Passive Broadband Splitter/Combiner LC 2150A Series MODEL LC12 2150A LC24 2150A Frequency: 950-2150 MHz 950-2150 MHz Impedance: 75 Ω 75 Ω P1dB: -2 dbm (each input) -5 dbm (each input) Insertion Loss: 0 ± 2 db 0 ± 2.5 db Frequency Response: ± 2 db ± 2.5 db Isolation: 18 db 18 db Input Return Loss: 12 db 12 db Output Return Loss: 12 db 12 db Noise Figure: 19 db 27 db RF Connectors: Type F, 75 W Type F, 75 W Power Requirements: 18-24 VDC via 2-pin quick connect barrier strip 18-24 VDC via 2-pin quick connect barrier strip Power Consumption: 6 W 13 W Mechanical: 1 RU (1.75 H x 19 W x 6.5 D) 2 RU (3.5 H x 19 W x 14 D) LSC 1000P Series MODEL LSC04 1000P LSC08 1000P LSC16 1000P LSC32 1000P LSC48 1000P LSC64 1000P Frequency: 5-1000 MHz 5-1000 MHz 5-1000 MHz 5-1000 MHz 5-1000 MHz 5-1000 MHz Impedance: 75 Ω 75 Ω 75 Ω 75 Ω 75 Ω 75 Ω Insertion Loss: 7.5 ± 1 db 11.5 ± 2 db 15 ± 2.5 db 18 ± 2.5 db 21 db ± 2 db 23 db ± 2.5 db Frequency Response: ± 2 db ± 2 db ± 2.5 db ± 2.5 db ± 2 db ± 2.5 db Isolation: 16 db 16 db 20 db 20 db 16 db 20 db Input Return Loss: 14 db 12 db 14 db 12 db 13 db 12 db RF Connectors: Type F, 75 Ω (BNC optional) Type F, 75 Ω (BNC optional) Type F, 75 Ω (BNC optional) Type F, 75 Ω (BNC optional) Type F, 75 Ω (BNC optional) Type F, 75 Ω (BNC optional) Mechanical: 1 RU (1.75 H x 19 W x 6.5 D) 1 RU (1.75 H x 19 W x 6.5 D) 1 RU (1.75 H x 19 W x 6.5 D) 1 RU (1.75 H x 19 W x 6.5 D) 3 RU (5.25 H x 19 W x 20 D) 3 RU (5.25 H x 19 W x 20 D) *Specifications may vary with connector type. See data sheet for specific performance data 28

LS 1000A & LC 1000A Series Active (Amplified - Zero Loss) Splitters & Combiners Convenient, centralized rack mount designs improve cable management Microstrip design provides better performance and reliability Larger configurations eliminate cascaded combiners for better performance Active (zero loss) combiners allow for ease in RF budget design Custom configurations for optimization of rack space and increased flexibility Greatly improves cable management and aesthetics by allowing for easy access to cable routing and easing identification of cabling Reduces cable connector failures by eliminating the need for frequent manual connects/disconnects The LS and LC 1000A Series are a commercial quality line of broadband RF splitters (power dividers) and combiners that meet strict level, match, and loss specifications achieved through the use of Quintech s proprietary microstrip and SMT technology. LS16 1000A 16-way Active Broadband Splitter LS32 1000A 32-way Active Broadband Splitter LS 1000A Series MODEL LS16 1000A LS32 1000A LS48 1000A LS64 1000A Frequency: 5-1000 MHz 5-1000 MHz 5-1000 MHz 5-1000 MHz Impedance: 75 Ω 75 Ω 75 Ω 75 Ω P1dB: +6 dbm +6 dbm +3 dbm +3 dbm Insertion Loss: 0 + 2 db @ 500 MHz 0 ± 2 db @ 500 MHz 0 ± 2 db @ 500 MHz 0 ± 2 db @ 500 MHz Frequency Response: ± 2.5 db ± 2 db ± 2 db ± 2 db Isolation: 16 db 18 db 16 db 18 db Input Return Loss: 13 db 14 db 14 db 14 db Output Return Loss: 14 db 15 db 15 db 15 db RF Connectors: Type F, 75 Ω Type F, 75 Ω Type F, 75 Ω Type F, 75 Ω Power Requirements: 18-24 VDC via 2-pin quick connect 18-24 VDC via 2-pin quick connect 18-24 VDC via 2-pin quick connect 18-24 VDC via 2-pin quick connect Power Consumption: 13 W 17 W 20 W 25 W Mechanical: 1 RU (1.75 H x 19 W x 6.5 D) 2 RU (3.5 H x 19 W x 14 D) 3 RU (5.25 H x 19 W x 20 D) 3 RU (5.25 H x 19 W x 20 D) LC 1000A Series LC64 1000A 64-way Active Broadband Combiner MODEL LC16 1000A LC32 1000A LC64 1000A Frequency: 5-1000 MHz 5-1000 MHz 5-1000 MHz Impedance: 75 Ω 75 Ω 75 Ω P1dB: +8 dbm each input +1dBm each input (single carrier equiv.) - 2.0 dbm (each input) Insertion Loss: 0 ± 2 db @ 500MHz 0 ± 2 db @ 500MHz 0 ± 2 db @ 500MHz Frequency Response: ± 2.5 db ± 2.5 db ± 2.5 db Isolation: 16 db 16 db 20 db Input Return Loss: 14 db 12 db 17 db Output Return Loss: 7 db 12 db 12 db RF Connectors: Type F, 75 Ω Type F, 75 Ω Type F, 75 Ω Power Requirements: 18-24 VDC via 2-pin quick connect barrier strip 18-24 VDC via 2-pin quick connect barrier strip 18-24 VDC via 2-pin quick connect barrier strip Power Consumption: 14 W 17 W 24 W Mechanical: 1 RU (1.75 H x 19 W x 6.5 D) 2 RU (3.5 H x 19 W x 14 D) 3 RU (5.25 H x 19 W x 20 D) *Specifications may vary with connector type. See data sheet for specific performance data 29

Splitter/ Combiner Options MODEL LS1000A LSC 1000P LS2150A Configurations Available: 16,32,48,64 04,08,16,32,48,64 04,08,12,16,24,32,48,64 Frequency: 5-1000 MHz 5-1000 MHz 950-2150 MHz 18-24 VDC Via 2 Pin Quick Connect Standard Not Applicable Standard Barrier Strip: Internal AC: Optional on All Configurations Not Applicable Optional on All Configurations Internal Redundancy: 16 Port Only Not Applicable Available on All Except 48 & 64 Ports Dual Internal and External 32 & 64 port Only Not Applicable 04,08,48 & 64 Port Redundancy: DC Power Passing: All Inputs are DC Blocked All Inputs are DC Blocked All Outputs are DC Blocked Standard Connectors: F Standard F Standard F Standard Additional Connectors Available: BNC 75 Ohm Only BNC 75 Ohm Only BNC 75 & BNC 50 Ohm 10 MHz Passing On Port One: Not Available Not Available All Configurations External 10 MHz Insertion: Not Available Not Available 04,08,12, & 16 Ports Only Contact Closure Alarm: 32 x 64 port only Not Available All Configurations Power Adapter & Power Cords: Sold Separately Not Available Sold Separately MODEL LS2150P LC2150A LC2150P LC1000A Configurations Available: 02,04,08,12,24,32 12 & 24 04,08 & 16 16,32,64 Frequency: 950-2150 MHz 950-2150 MHz 950-2150 MHz 5-1000MHz 18-24 VDC Via 2 Pin Quick Connect Standard to Insert + External LNB Standard Not Applicable Standard Barrier Strip: Power Internal AC: Not Applicable Optional on All Configurations Not Applicable Optional on All Configurations Internal Redundancy: Not Applicable Available on 12 Port Only Not Applicable 16 Port Only Dual Internal and External Not Applicable Available on 24 Port Only Not Applicable 32 & 64 port Only Redundancy: DC Power Passing: Output Port One Only All Inputs are DC Blocked All Inputs are DC Blocked All Inputs are DC Blocked Standard Connectors: F Standard F Standard F Standard F Standard Additional Connectors Available: BNC 75 & BNC 50 Ohm BNC 75 & BNC 50 Ohm BNC 75 & BNC 50 Ohm BNC 75 Ohm Only 10 MHz Passing On Port One: 04,08,12 & 16 Ports Only 12 Way Only Standard All Configurations Not Available External to MHz Insertion: 04,08,12 & 16 Ports Only 12 Way Only Not Available Not Available External 10 MHz Insertion and 04,08,12 & 16 Ports Only 12 Way Only Not Available Not Available Power Passing On Port One: Contact Closure Alarm: Not Available 12 Way Only Not Available 32 Port Only Power Adapter & Power Cords: Sold Separately Sold Separately Sold Separately Sold Separately 30

PUL Series SCPC IF To L-band Up Converters Quintech s PUL & PDL Series L-band up converters are suitable for all current high-speed data transmission rates and advanced digital modulation schemes. They are frequently used in test loop translator applications and any application where it is necessary to convert between intermediate frequency and an L-Band frequency. Test Loop Translator Very low phase noise characteristics, maintaining a cleaner signal Ideal solution for test loop translator applications Convenient, well organized rack mount configuration Most cost effective model on the market Supports Legacy 70 MHz Equipment PUL 070D 70 MHz IF to L-band Up Converter MODEL PUL 070A (Frequency Agile) PUL 070D PUL 140D Input Frequency: 70 MHz IF 70 MHz IF 140 MHz IF Output Frequency: 950-2150 MHz L-band Selectable Customer-specified L-band frequency (950-1450 MHz) Output Bandwidth (-3 db): ±18 MHz 36 MHz 80 MHz Input Power Level: -50 to -10 dbm -50 to -20 dbm -50 to -20 dbm Overall Gain (Loss): 0 db ± 3 db, 950-2150 MHz 0 ± 2 db 0 ± 2 db LO Stability: ±1 ppm ±1 ppm ±1 ppm Input Return Loss: 14 db 13 db 12 db Output Return Loss: 10 db 10 db 10 db Spurious: -40 dbc, signal related -11 dbm, L.O. leakage -50 dbc -50 dbc Phase Noise: (Applies to all models) Offset (Hz) (dbc/hz) Offset (Hz) (dbc/hz) Offset (Hz) 10,000-76 100,000-101 1,000,000-109 10-60 100-75 1,000-76 10,000-78 100,000-99 1,000,000-110 Customer-specified L-band frequency (950-1450 MHz) (dbc/hz) 10-60 100-75 1,000-76 10,000-78 100,000-99 1,000,000-110 Operating Temp.: +10º to +60º C +10º to +60º C +10º to +60º C Output Connector: Type F 75 Ω Type F 75 Ω Type F 75 Ω Input Connector: BNC, 75 Ω BNC, 75 Ω BNC, 75 Ω Power Required: 100-240 VAC, 60/50 HZ 100-240 VAC, 60/50 HZ 100-240 VAC, 60/50 HZ Mechanical: 1 RU (1.75 H x 19.0 W x 14 D) 1 RU (1.75 H x 19.0 W x 12.5 D) 1 RU (1.75 H x 19.0 W x 12.5 D) Operational Features: Inverting and non-inverting user selectable. Up to 4 programmable preset channels Customer must specify non-inverting or inverting channels, available in single or dual configurations Customer must specify non-inverting or inverting channels 31

PDL Series SCPC L-band To IF Down Converters Quintech s PUL & PDL Series Single Channel Per Carrier (SCPC) RF frequency converters feature highly improved phase noise and stability performance that exceeds the IESS 308/309 standard, and are suitable for all current high-speed data transmission rates and advanced digital modulation schemes. They are frequently used in test loop translator applications and any application where it is necessary to convert between intermediate frequency and an L Band frequency. Very low phase noise characteristics, maintaining a cleaner signal Ideal solution for test loop translator applications Convenient, well organized rack mount configuration Supports Legacy 70 MHz Equipment L-band Down Conversion To IF Modems PDL 070D L-band to 70 MHz IF Down Converter MODEL PDL 070D PDL 140D Input Frequency: Customer-specified L-band frequency (950-1450 MHz) Customer-specified L-band frequency (950-1450 MHz) Output Frequency: 70 MHz IF 140 MHz IF Output Bandwidth (-3 db): 36 MHz 80 MHz Input Power Level: -50 to -20 dbm -50 to -10 dbm Overall Gain (Loss): 0 ± 2 db 0 ± 2 db LO Stability: ±1 ppm ±1 ppm Input Return Loss: 10 db 10 db Output Return Loss: 14 db 14 db Spurious: -50 dbc -50 dbc Phase Noise: (Applies to all models) Offset (Hz) (dbc/hz) Offset (Hz) (dbc/hz) 10-58 100-72 1,000-73 10,000-76 100,000-100 1,000,000-110 10-58 100-72 1,000-73 10,000-76 100,000-100 1,000,000-110 Operating Temp.: +10º to +60º C +10º to +60º C Output Connector: BNC, 75 Ω BNC female, 75 Ω Input Connector: Type F, 75 Ω Type F, 75 Ω Power Required: 100-240 VAC, 60/50 HZ 100-240 VAC, 60/50 HZ Mechanical: 1 RU (1.75 H x 19.0 W x 12.5 D) 1 RU (1.75 H x 19.0 W x 12.5 D) Operational Features: Customer must specify non-inverting or inverting channels Customer must specify non-inverting or inverting channels 32

The TXS/RXS 8:1 Fiber Redundancy System provides the routing mechanism for substituting a backup fiber link for any one of eight main fiber links. The TXS Transmit Router provides eight 2-way splitters and a single 8x1 router in a common 3 RU enclosure. One output of each 2-way splitter is accessible through a rear panel mounted F type connector to feed fiber optic transmitters. The other output of each 2-way splitter is connected to the input of the 8x1 router. The router output feeds a backup fiber optic transmitter. The RXS Receiver Router provides eight RF Sensing Switches and a single 1x8 zero loss switch in a single 3RU enclosure. Each of the RF Sensing Switches utilizes a DPDT relay to switch either the primary or the secondary signal input to the output. The signal is coupled from the primary input, filtered, amplified, and detected to operate the relay. When the input level is above a preset threshold, which is adjustable via the front panel, the relay coil is de-energized and the primary signal path is selected. If the signal falls below the preset threshold, the relay coil is energized and the secondary signal path is selected. Under a no power condition, the unit will default to the primary position. The outputs of the optical receivers in the primary fiber links are connected to the primary inputs of the sensing switches via rear panel mounted F connectors. The outputs of the sensing switches are accessed via rear panel mounted F connectors. The output of the optical receiver from the standby optical link is connected to the TXS/RXS Series 8:1 Fiber Link Redundancy Systems The TXS/RXS System provides fiber optic redundancy on an 8 to 1 scale - Redundancy for 1/8th the cost RF Detection Level is adjustable via front panel keypad & LCD Primary paths are prioritized. In the event of a multiple link failure, the most critical path is maintained If multiple paths fail, the path with the highest priority will be assigned the backup path. Ports are prioritized numerically from 1-8, i.e., if ports 2 and 3 were lost simultaneously, port 2 would switch to the backup link, etc. All other paths in backup mode are referred to as failed and are identifiable via front panel LCD display SNMP traps provide alarm status when system is in backup mode Input/Output Naming: 7-character alpha-numeric naming of inputs and outputs for easy reference Rear panel mounted RJ45 connector provides an Ethernet port for the M&C monitoring of the switch position Redundant power provided via dual AC inputs and dual internal PSUs input of the 1x8 switch via a rear panel mounted F connector labeled RX Backup. The outputs of the 8x1 switch are connected to the secondary inputs of the sensing switches. In the event the primary optical link fails, the RXS will automatically switch the backup optical link to replace the failed primary optical link. The RXS will send a control signal to the TXS via RS-422 and route the input of the failed primary optical link to the standby optical link. MODEL TXS 2150 RXS 2150 TXS 070 RXS 070 Operating Frequency: 950-2150 MHz 950-2150 MHz 70±20 MHz 70±20 MHz Impedance: 75 Ω 75 Ω 75 Ω 75 Ω P1dB: +12 dbm +10 dbm +8 dbm +8 dbm Detected Frequency: N/A 950-2150 MHz N/A 70±1 MHz Detection Level: N/A -50 to -20 dbm (adjustable) N/A -50 to -20 dbm (adjustable) Insertion Loss (Primary): 4.0 db ± 0.5 db 2.5 db ± 1.5 db 4.0 db ± 1.0 db 1.0 db ± 0.5 db Insertion Loss (Backup): 3.5 db ± 1.5 db 2.5 db ± 1.5 db 3.0 db ± 1.0 db 0.0 db ± 0.5 db Frequency Response: ± 2 db ± 2 db ±1.0 db ±1.0 db Isolation: 50 db (Splitter out to Switch Out) 40 db 60 db 50 db Return Loss: 12 db 12 db 16 db 16 db RF Connectors: Type-F, 75 W Type-F, 75 W Type-F, 75 W Type-F, 75 W Power Requirements: 100-240 VAC, 60/50 Hz 100-240 VA, 60/50 Hz 100-240 VAC, 50/60 Hz 100-240 VAC, 50/60 Hz Power Consumption: 11 W 70 W 14 W 36 W Local Control: Front panel keypad with LCD Front panel keypad with LCD Front panel keypad with LCD Inter-module Control Data: RS-422 RS-422 RS-422 RS-422 Monitor: Ethernet Ethernet Ethernet Ethernet Mechanical: 3 RU (5.25 H x 19 W x 20 D) 3 RU (5.25 H x 19 W x 20.0 D) 3 RU (5.25 H x 19 W x 20 D) Front panel keypad with LCD 3 RU (5.25 H x 19 W x 20 D) Weight: 17 lbs. gross (boxed), 11 lbs. net 20 lbs. gross (boxed), 13.5 lbs. net 17.1 lbs (boxed) 11.1 lbs 19.1 lbs (boxed) 13.1 lbs Options: BNC 50-75 W BNC 50-75 W BNC 50-75 W BNC 50-75 W 33

TXS Transmit Router RXS Receiver Router 8:1 Fiber Link Redundancy 34

Conversion of Return Loss to Equivalent VSWR RETURN LOSS VSWR RETURN LOSS VSWR RETURN LOSS VSWR RETURN LOSS VSWR 60.00 1.002 21.66 1.18 14.50 1.464 8.00 2.323 55.00 1.004 21.25 1.19 14.41 1.47 7.89 2.35 50.00 1.006 21.00 1.196 14.26 1.48 7.71 2.40 46.06 1.01 20.83 1.20 14.12 1.49 7.53 2.45 45.00 1.011 20.44 1.21 14.00 1.499 7.50 2.458 40.09 1.02 20.08 1.22 13.98 1.50 7.36 2.50 40.00 1.021 20.00 1.222 13.84 1.51 7.20 2.55 39.00 1.023 19.73 1.23 13.71 1.52 7.04 2.60 38.00 1.025 19.50 1.237 13.58 1.53 7.00 2.615 37.00 1.029 19.40 1.24 13.50 1.536 6.90 2.65 36.61 1.03 19.08 1.25 13.45 1.54 6.76 2.70 36.00 1.032 19.00 1.253 13.32 1.55 6.62 2.75 35.00 1.036 18.78 1.26 13.20 1.56 6.50 2.796 34.15 1.04 18.50 1.27 13.08 1.57 6.49 2.80 34.00 1.041 18.22 1.28 13.00 1.577 6.37 2.85 33.00 1.046 18.00 1.288 12.96 1.58 6.25 2.90 32.26 1.05 17.95 1.29 12.85 1.59 6.13 2.95 32.00 1.052 17.69 1.30 12.74 1.60 6.02 3.00 31.00 1.058 17.50 1.308 12.50 1.622 6.00 3.10 30.71 1.06 17.45 1.31 12.21 1.65 5.50 3.263 30.00 1.065 17.21 1.32 12.00 1.671 5.11 3.50 29.42 1.07 17.00 1.329 11.73 1.70 5.00 3.57 29.00 1.074 16.98 1.33 11.50 1.725 4.50 3.946 28.30 1.08 16.75 1.34 11.29 1.75 4.44 4.00 28.00 1.083 16.54 1.35 11.00 1.785 4.00 4.419 27.32 1.09 16.50 1.352 10.88 1.80 3.93 4.50 27.00 1.094 16.33 1.36 10.51 1.85 3.52 5.50 26.44 1.10 16.13 1.37 10.50 1.851 3.50 5.030 26.00 1.106 16.00 1.377 10.16 1.90 3.19 5.55 25.66 1.11 15.94 1.38 10.00 1.925 3.00 5.848 25.00 1.119 15.75 1.39 9.84 1.95 2.92 6.00 24.94 1.12 15.58 1.40 9.54 2.00 2.69 6.50 24.29 1.13 15.50 1.404 9.50 2.007 2.50 7.00 24.00 1.135 15.38 1.41 9.26 2.05 2.25 7.764 23.69 1.14 15.21 1.42 9.00 2.10 2.00 8.724 23.13 1.15 15.04 1.43 8.75 2.15 1.75 9.960 23.00 1.152 15.00 1.433 8.52 2.20 1.50 11.610 22.61 1.16 14.88 1.44 8.50 2.204 1.25 13.921 22.12 1.17 14.72 1.45 8.30 2.25 1.00 17.391 22.00 1.173 14.56 1.46 8.09 2.30 0.50 34.753 35

Conversion of Power (watts to dbm) Micro watts Power (dbm) Micro watts Power (dbm) Milli watts Power (dbm) Milli watts Power (dbm) Watts Power (dbm) 1-30.00 100-10.00 1 0.00 10 +20.00 1 +30.00 2-26.99 125-9.03 2 +3.01 20 +20.97 2 +33.01 3-25.23 150-8.24 3 +4.77 30 +21.76 3 +34.77 4-23.98 175-7.57 4 +6.03 40 +22.43 4 +36.02 5-23.01 200-6.99 5 +6.99 50 +23.01 5 +36.99 6-22.22 225-6.48 6 +7.78 60 +23.52 6 +37.78 7-21.55 250-6.02 7 +8.45 70 +23.98 7 +38.45 8-20.97 275-5.61 8 +9.03 80 +24.39 8 +39.03 9-20.46 300-5.23 9 +9.54 90 +24.87 9 +39.54 10-20.00 325-4.88 10 +10.00 100 +25.12 10 +40.00 15-18.24 350-4.56 15 +11.76 150 +25.44 15 +41.76 20-16.99 375-4.26 20 +13.01 200 +24.74 20 +43.01 25-16.02 400-3.98 25 +13.98 250 +26.02 25 +43.98 30-15.23 425-3.72 30 +14.77 300 +26.28 30 +44.77 35-14.56 450-3.47 35 +15.44 350 +26.53 35 +45.44 40-13.98 475-3.23 40 +16.02 400 +26.77 40 +46.02 45-13.47 500-3.01 45 +16.53 450 +26.99 45 +46.53 50-13.01 525-2.80 50 +16.99 500 +27.20 50 +46.99 55-12.60 550-2.60 55 +17.40 550 +27.40 55 +47.40 60-12.22 600-2.22 60 +17.78 600 +27.78 60 +47.78 65-11.87 650-1.87 65 +18.13 650 +28.13 65 +48.13 70-11.55 700-1.55 70 +18.45 700 +28.45 70 +48.45 75-11.25 750-1.25 75 +18.75 750 +28.75 75 +48.75 80-10.97 800-0.97 80 +19.03 800 +29.03 80 +49.03 85-10.71 850-0.71 85 +19.29 850 +29.29 85 +49.29 90-10.46 900-0.46 90 +19.54 900 +29.54 90 +49.54 95-10.22 950-0.22 95 +19.78 950 +29.78 95 +49.78 100-10.00 1000 0.00 100 +20.00 1000 +30.00 100 +50.00 36

Calculated signal level for combined multiple inputs Number of Inputs Input Levels (dbm) -50-45 -40-35 -30-25 -20-15 -10-5 0 5 10 4-38.0979-38.979-33.979-28.979-23.979-18.979-13.979-8.979-3.979 1.021 6.021 11.021 16.021 8-40.969-35.969-30.969-25.969-20.969-15.969-10.969-5.969-0.969 4.031 9.031 14.031 19.031 12-39.208-34.208-29.208-24.208-19.208-14.208-9.208-4.208 0.792 5.792 10.792 15.792 20.792 16-37.959-32.959-27.959-22.959-17.959-12.959-7.959-2.959 2.041 7.041 12.041 17.041 22.041 24-36.198-31.198-26.198-21.198-16.198-11.198-6.198-1.198 3.802 8.802 13.802 18.802 23.802 32-34.949-29.949-24.949-19.949-14.949-9.949-4.949 0.051 5.051 10.051 15.051 20.051 25.051 64-31.938-21.938-21.938-16.938-11.938-6.938-1.938 3.062 8.062 13.062 18.062 23.062 28.062 The above chart calculates the combined signal levels, minus the combiner insertion loss at the output of a passive combiner. It may also be used to determine maximum inputs levels so as not to exceed the P1dB of the output amplifier on an active combiners. Combiner output equals the input level plus 10 times the log of the number of inputs. For the purpose of these calculations, the assumption is that all input levels are equal. In reality, this is seldom the case. To assist with overall link budget calculations, use the highest anticipated input level as the point of reference. This will assure not exceeding the P1dB of the active combiner components. On passive combiners, also take into consideration the insertion loss of the combiner from the published spec sheet(s). Conversion Between Degrees and Radians 37

Glossary of Terms Active (Combiner or Splitter) An RF device that includes active components (amplifiers) to compensate for losses inherent in typical splitter/combiner circuits. Agile Frequency Converter a device that allows conversion of one frequency to another, either an up-converter or a downconverter, while allowing flexibility of programming frequencies. Amplitude Balance - The property of a signal splitter having equal output levels. Blocking Matrix a matrix switch in which an input or an output may only be connected, one at a time, subsequent input or output reassignment will disconnect previous assignments. Block Up-Converter (BUC) typically used to convert L-band signals to satellite uplink frequencies. Combiner a device used to combine multiple RF signals to a common output while maintaining impedance matching (See Active and Passive). Decibel - Abbreviation db; a logarithmic function used to simplify RF calculations; decibels may be added or subtracted; 0 db is the standard reference level. DC - direct current, typically used to define RF input operating voltages. Down-Converter a device used to convert a signal of higher frequency to a signal of lower frequency. DPDT - double-pole double-throw switch. Fan-In matrix a matrix switch that allows any, many or all inputs to be combined into a single output. Fan-Out matrix a matrix switch that allow any input to be split or distributed to many or all outputs. Frequency Range - the span of frequencies over which an electronic component or combiner maintains the specified characteristics. Frequency Response (also known as amplitude frequency response) indicates the loss or gain in signal level over the specified frequency range. Gain - A measure of amplification of a device. (See also unity gain) GHz gigahertz, one gigahertz equals 1000 MHz. HPA high power amplifier, typically used after the BUC to send signals to the uplink antenna assembly. I/O - input/output, typically refers to the number of inputs and/or outputs. Impedance a characteristic of the design of RF signal products, usually express in Ohms and allows for system design for maximum signal transfer throughout the system. Input Return Loss the standing wave ratio measured at the input port of an RF component with all ports properly terminated, expressed in db. (Also referred to as Input VSWR, expressed as a ratio) Insertion Loss the characteristic of a splitter or a combiner that expresses in db the signal loss between input and output signal levels. IP2 second order intercept point, the point at which second order products create spurious outputs, typically out of band. IP3 third order intercept point, the point at which third order products create spurious outputs, typically out of band. 38

Glossary of Terms Isolation- the characteristic of the separation expressed in db of the output to output, input to input, or input to output port of RF Signal Management Products. Inverting - typically the output of a mixer in which the Local Oscillator frequency is above the input frequency and the output is the difference of the two frequencies. L-Band Frequencies ranging between 950 and 2,150 MHz. LNB low noise block converter, usually used on the downlink side of a satellite feed. Maximum Input Power the maximum RF signal input level that is non-destructive to the operation of the equipment. MHz one megahertz equals 1,000,000 Hz. Non-Blocking Matrix - a matrix switch in which an input or an output may be connected to multiple inputs or outputs. (See Fan-In and Fan-out for more detailed description) Non-Inverting - typically the output of a mixer in which the Local Oscillator frequency is below the input frequency and the output is the sum of the two frequencies. Operating Frequency The lower and upper operational frequency limits as specified on the product specification sheet. Output Return Loss - the standing wave ratio measured at the output port of an RF combiner with all output ports properly terminated, expressed as db. (also referred to as Output VSWR, expressed in a ratio) P1dB in an amplifier, it is the point at which an increase in input signal experiences as 1 db loss at the output of the amplifier. RF Router a switch used to monitor multiple RF signals inputs (one at a time) to a single output, for use with test equipment such as a spectrum analyzer. RoHS - Restriction of Hazardous Substances. Signal-To-Noise Ratio (S/N) - the ratio of desired signal level to the undesired noise level, expressed in db. (Sometimes expressed as SNR) Splitter a device used to split (divide) a common RF signal to multiple outputs while maintaining impedance matching. (See Active and Passive) Signal Strength - the level of an RF signal measured in volts (V), millivolts (mv), microvolts (µv), dbmv or dbm. SPDT - single-pole double-throw switch. Terminator - A resistive device connected to unused ports on splitters and combiners to reduce unwanted signal reflections, ingress or egress problems due to impedance mismatches. Unity gain a design characteristic to cancel losses inherent in electronic equipment, typically using active amplifier components. UP Converter a device used to convert a signal of lower frequency to a signal of higher frequency. VSWR - voltage standing wave ratio, frequently referred to as return loss, it is the ratio of signal loss due to reflected signals caused by impedance mismatches. 39