Free Notice (Other) - District Court of Federal Claims - federal

Case REGIONAL C~FP A.CTING CENTER 46-26 Document NAVAL 1:02-cv-00796-FMA
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AME~MENT

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5-4.7.1 AN/UYK-20(V) to 0N-143(y)4/USQ Functional Interface Description. The SSIXS processor interfaces with the ON-143(V)4/USQ via a serial, synchronous I/O c~annel (channel 13). The following subparagraphs discuss the signals required for this interface. The interface signals between the processor and the IG are discussed below. a. LINK ENABLE. LINK ENABLE is provided used by the IG to initiate transmit sequencing. transmit and -6 VDC when not in transmit. by the processor and is The signal is +6 VDC in

b. END RECEIVE. END RECEIVE is provided by the IG and is used by the processor to determine when valid RCV DATA and RCV CLOCK are present. The low-to-high transition of this signal occurs when the IG enables RCV CLOCK to the processor. The high-to-low transition occurs when RCV CLOCK is disabled or DATA MODE CHANNEL BUSY is low. The high-to-low transition generates an END RECEIVE interrupt to the processor. The signal levels of END RECEIVE are ~6 VDCo c. XMT CLOCK. TRANSMIT CLOCK is gated on by the IG after the ~]5 millisecond and the 835 bit delay (at the clock rate) following a LINK ENABLE signal. The delay allows transmitter turn-on, frequency stabilization and the crypto synchronization sequence. The signal levels of XMT CLOCK are +._6 VDC. on are

d. XMT DATA. TRANSMIT DATA is shifted out of the processor the low-to-high transition of XMT CLOCK. The signal levels of XMT DATA ~6 VDC.

the first ÷6VDC.

e. RCV CLOCK. RECEIVE CLOCK is gated on by the IG in phase with data bit output from the IG. The signal levels of RCV CLOCK are

f. RCV DATA. to-low transition

RECEIVE

DATA

is shifted

out of the

IG on the high-

of RCV CLOCK. The signal levels of RCV DATA are +__6 VDC.

g. ALARM INDICATE. ALARM INDICATE is generated by the crypto and routed through the IG to the processor. This signal generates a fault interrupt in the processor; it requires the processor to disable LINK ENABLE, if active, or to abort received message, if in receive. A voltage level of +6 VDC indicates a crypto fault and 0 VDC indicates this line is inactive. h. MIAR. MESSAGE INDICATE ALAI~M RESET is generated in the processor and routed through the IG to the crypto. MIAR is a 10-millisecond pulse that resets the crypto in response to ALARM INDICATE or to a program determined loss of synchronization. A voltage level of +6 VDC resets the crypto and 0 VDC indicates this line is inactive. i. CHANNEL BUSY. CHANNEL BUSY is genera ted in the transceiver and routed through the IG to the processor. The low-to-high transition of this signal indicates that the transceiver has acquired an RF signal. The high-tolow transition indicates loss of an acquired RF signal. The signal levels of CHANNEL BUSY are +6 VDC.

5-4.7. ON-I3( v_)_4_/_us__~_t ~ 4 TSEC~KG-36 (or TSEC/KG-35) Functional Interface D e s c_____r_~t_i_o_n_. interface signals between the IG and the crypto are disThe cussed below.
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a. PREP. PREP is generated by the IG and applied to the crypto. PREP is a red control signal that is used by the crypto to place it in transmit state. The signal is 0 %rDC in transmit and approximately +6 VDC when not in transmit. b. GATED CLOCK (TRANSMIT MODE). ThLs functLon applLes when the IG is in transmit. GATED CLOCK is a red signal ga~ed by the crypto; it clocks ~T DATA into the crypto on the low-to-high transition of GATED CLOCK. The signal levels of GATED CLOCK are +6 VDC. c. GATED CLOCK (RECEIVE !~DE). This function applies when the is in rece±ve. GATED CLOCK is a red signal gated by the crypto; it clocks RCV DATA OUt Of the crypto on ~he high-to-low transition of GATED CLOCK. The signal levels of GATED CLOCK are +6 VDC. d. XMT DATA (RED). TRANSMIT DATA is a red lunencrypted) digital data stream; it is clocked into the crypto by GATED CLOCK. The signal levels of ~4T DATA are +6 VDC. e. RCV DATA (RED). RECEIVE DATA is a red (decrypted) digital data stream; it is clocked out of the crypto by GATED CLOCK. The signal levels of RCV DATA are +6 VEC. f. ALARM INDICATE. ALARM INDICATE is generated by the crypto and

applied to the IG. ALA~ INDICATE is a red status signal that indicates the crypto is in an alarm state. The crypto does net output (black) XMT DATA when it is in the alarm state. To come out of the alarm state, the crypto must be commanded by MIA/{ to reset its alarm. A signal level of +6 VI~ indicates that the crypto is in an alarm state. A signal level of 0 VDC indicates that the crypto is not in a~ alarm state. MIAR, MESSAGE INDICATE ALAI~! RESET is a red control signal that ls gated by the IG and applied to the crypto. MIAR is a 10-millisecond pulse that resets the crypto, The reset condition of this signal is 0 VDC and the normal state is +6 VDC. h. XMT/RCV CLOCK. TRANSMIT/RECEIVE CLOCK is a black clock signal that is generated in the IG. If an external clock is selected XMT/RCV CLOCK is phase locked to XMT BIT TIMING in transmit and RCV BIT T~41NG in receive. The sLgnal levels of ~MT/RCV CLOCK are ~6 VDC. i. XMT DATA (BLACK). TRANSMIT DATA is a black (encrypted) digital data stream that is clocked out of the crypto by the low-~o-high transition of XMT/RCV CLOCK. The signal levels of ~MT DATA are +~ VDC. :qMT DATA is +6 VDC when ~he crypto is not in transmit. j. RCV DATA (BLACK). RECEIVE DATA is a black (encrypted) digital data stream that is clocked into ~he crypto by the high-to-low transition of XMT/RCV CLOCK, The signal levels of RCV DATA are +__6 VDC. RCV DATA is +6 VDC when the crypto is not in receive. 5-4.7.3 ON-143(V)4/USQ Description. The in~erface discussed below. to AN~SC-5(V) signals between AN/WSC-3 Functional Interface are the IG and the transceiver

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a. DATA KEYLINE. DATA KEYLINE is used by the transceiver to place it in transmit. The signal may be ground in transmit, open when not or +6 VDC in transmit, -6 VDC when not. DATA KEYLINE must be ground in transmit, open when not when operating with the AN/WSC-3. This signal is input to the AN/ WSC-5(V) transceiver as BASEBAND KEYLINE. b. XMT CLOCK. TRANSMIT CLOCK is a black clock signal that may be provided by the station clock, transceiver or IG; it is used by the IG to clock XMT DATA out of the IG. The signal levels of XMT CLOCK are +6 VDC. This signal is output from the AN/WSC-3 transceiver as XMT BIT TIMING. c. XMT DATA. TRANSMIT DATA is a black (encrypted) digital data that is clocked out of the IG on the low-to-high transition of XMT The signal levels of XMT DATA are +6 VOC.

stream CLOCK.

d. RCV CLOCK. RECEIVE CLOCK is a black clock signal that is generated by the transceiver; it is used by the IG to clock RCV DATA into the IG. The signal levels of RCV CLOCK are +6 VDC. This signal is output from the AN/WSC-3 transceiver as RCV BIT TIMINg. e. RCV DATA. RECEIVE DATA is a black (encrypted) stream that is clocked out of the transceiver on the high-to-low RCV CLOCK. The signal levels of RCV DATA are +6 VDC. digital data transition of

fo DATA MODE CHANNEL BUSY. DATA MODE CHANNEL BUSY indicates that the transceiver is generating valid RCV DATA and RCV CLOCK. DATA MODE CHANNEL BUSY is a black control signal with signal levels of +6 VDC in receive and -6 VDC when idle. This signal is output from the AN/WSC-5(V) transceiver OUTPUT DATA TRANSFER LL. g. DATA status signal that turn on the receive and open when idle. lamp). This signal TRANSFER. SIG ACQ IND. DATA SIGNAL ACQUIRED INDICATE is a black is generated in the transceiver; it is used by the iG to indicator lamp. DATA SIG ACQ IND is at ground in receive When open, +6 VDC is present (via the receive indicator is output from the AN/WSC-5(V) transceiver as OUTPUT DATA

h. GROUND IN TRANSMIT. GROUND IN TRANSMIT is a black status signal that is generated in the transceiver; it is used by the IG to turn on the transmit indicator lamp. GROUND IN TRANSMIT is at ground in transmit and open when idle. When open, +6 VDC is present (via the transmit indicator lamp). This signal is output from the AN/WSC-5(V) transceiver as MODe4 READY. 5-4.7.4 ON-143(V)4/USQ defined. to TD-1271B/U Functional Interface Description.

5-4.7.5 Transm~t Sequence. The transmission of information through the 0N143(V)4/USQ is initiated by the AN/UYK-20(V) providing LINK ENABLE to the This initiates the sequence of events discussed below. (Refer to Figure 5-2.) a. The IG, upon sensing vides DATA KEYLINE to the satellite LINK ENABLE from the AN/UYK-20(V), proterminal and ~T/RCV CLOCK to the crypto.

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b. The IG then Initiates an internal 115-miilisecond time delay. This delay allows for transmitter turn-on and stabilization (40 +10 milliseconds) and, concurrently, the following crypto prepara~lon sequence: (I) At 89 milliseconds into the ~15-millisecond removes ~-~T/RCV CLOCK from the crypto, At 6.6 milliseconds after crypto provides PREP to the crypto, clock delay, the IG

(2)

removal,

the IG

(3)

Approximately 20 milliseconds after the PREP comm~and, IG restores XMT/RCV CLOCK to the crypto. enables the crypto to output

the

for receive

c. Crypto clock restoration crypto synchronization. bits have been

841 bits

d. After 834 GATED CLOCK to the IG.

counted

by

the

crypto,

it restores

e. Upon receiving GATED CLOCK, the AN/UYK-20(V) outputs 8 residue bits, ~hen valid data (XMT DATA). The residue bits are ignored by the crypto. f. XMT DATA is routed the satellite terminal. through the crypto and black IG interface to

5-4.7.6 Receive Sequence. The reception of signals relayed by the satellite causes a structured sequence that ensures valid data is output to the AN/ UYK-20(V). The sequence of events is discussed below. (Refer to Figure 5-3.) a. The satellite terminal demodulates a signal into RCV DATA. The satellite terminal provides a DATA MODE CHA~NEL BUSY signal to ~he IG; the IG passes CHANNEL BUSY to the AN/UYK-20(V). b. At the same time, the IG provides ~T/RCV CLOCK to the crypto and RCV DATA is clocked into the crypto. The crypto removes GATED CLOCK from the IG until it receives 84~ bits of preamble. c. The crypto, GATED CLOCK to the IG. ha~ing received 84~ bits of preamble, restores

d. The IG waits three clock periods, valid data (RCV DATA) into the AN/UYK-20(V).

provides

RCV CLOCK

and clocks

DATA MODE

e. When no more signal is received, the satellite terminal removes CHANNEL BUSY. The IG passes END R~CEIVE to the AN/UYK-20(V). f. The terminal is now free to stay in receive or go into transmit.

5-4.8 SC TTY USER TF/{MINAL EQUIPMENT INTERFACES. The SC TTY subsystem provides 75-baud digital data links between designated users ashore and afloat. These links may be either termination (point-to-point) or netted circuits. The SC TTY subsystem uses the TSEC/KW-7 security device for enoryption/decryption. The TSEC/KW-7 interfaces ashore are low level (~6 VDC). Table 5-25 lists the signals that are discussed below; FO-73 diagrams interface signal flow. AMENDMENT 0007 K - 11~

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5-4.8.1 s~gnals

Non-D~MA SC TTY Functional Interface Descriptlon. The interface between SC TTY equlpment and the AN/WSC-5(V) are discussed below. by in

a. DATA KEYLINE. DATA KEYLINE is a control signal generated the C-11330/WSC-5(V) control-indicator; it is used by the AN/WSC-5(V) to the transmitter. The slgnal is +6 VDC in transmit and -6 VDC when not transmit. This signal is input to the trsnsceiver as BASEBAND KEYLINE.

b. E-D SIGNAL INPUT. ELECTROMAGNETIC-DRIVeR SIGNAL INPUT is generated within the TSEC/KW-7 and applied to the AN/WSC-5(V). The signal is baud at +6 VDC. This signal is input to the transceiver as XMT DATA. c. C-K SIGNAL OUTPUT. CONVERTER-KEYER SIGNAL OUTPUT is generated within the AN/WSC-5(V) and applied to the TSEC/~q-7. The signal is 75 baud +6 VDC. This signal is output from the transceiver as RCV TTY DATA. A steady mark is applied by the BIU when no signal is present. d. DATA SIG ACQ IND. DATA SIGNAL ACQUIRED INDICATE is generated by the AN/WSC-5(V); it is used by the C-11330/WSC-5(V) control-indicator turn on the receive indicator lamp. The signal is ground in receive and open when not in receive. When open, +6 VDC is present (via the receive indicator lamp), This signal is output from the transceiver as OUTPUT DATA TRANSFER, e. GROUND IN TRANSMIT. GROUND IN TRANSMIT is generated by the AN/WSC-5(V); it is used by the C-~330/WSC-5(V) control-indicator to turn the transmit indicator lamp. The signal is ground in transmit and open when not in transmit. When open, +6 VDC is present (via ~he transmit indicator lamp). This signal is output from the transceiver as MODEM READY. 5-4.8.2 nals between ~4A SC T~Y Functional SC TTY equipment Interface Description. The interface below. sig-

and the TD-~27~B/U

are discussed

a. DATA KEYLINE. DATA KEYLINE is a control signal generated by r_he C-%1330/WSC-5(V) control-indicator; the signal is interpreted by the TD1271B/U as XMIT REQ. The TD-1271B/U uses this signal to initiate transmission processing. The signal is +6 VDC in transmit and -6 VDC when not in transmit. b. E-D SIGNAL INPUT. ELECTROMAGNETIC-DRIVER SIGNAL INPUT is generated within the TSEC/KW-7 and applied to the TD-1271B/U for transmission processing. The signal is interpreted by the TD-1271B/U as SERIAL INPUT DATA. The signal is 75 baud at +6 VDC. c. C-K SIGNAL OUTPUT. CONVERTER-KEYER SIGNAL OUTPUT is generated within the TD-~271B/U and applied to the TSEC/KW-7 for receive processing. The signal is output from the TD-1271B/U as OUTFUT DATA. The signal is 75 baud at ~5 VDC. d. DATA SIG ACQ IND. DATA SIGNAL ACQUIRED INDICATE is generated by the TD-1271B/U; it is used by the C-11330/WSC-5(V) control-indicator ~urn on the receive indicator lamp. The signal is output from the TD-]27%B/U as SIG ACQ LAMP, The signal goes to a ground level when a burst with data present is received in the time slot associated with the I/O port. The signal remains at a ground level for no more than 152 bit times after the last data

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bit has been output to the I/0 port. When no burst or burst with no data is received the signal remains open, When open, +6 VDC is present (via the receive indicator lamp). e. GROUND IN TRANSMIT. GROUND IN TRANSMIT is generated by the TD-~27~B/U; it is used by the C-~330/WSC-5(V) control-indicator to turn the transmit indicator lamp. The signal is output from the TD-1271B/U as TX ACK LAMP. The signal goes to a ground level within five milliseconds after the receipt of DATA KEYLINE if the TD-127~B/U is prepared to accept SERIAL INPUT DATA. The signal is open any time the TD-~27~B/U is not prepared to accept data and when DATA KEYLINE is open. When open, +6 VDC is present (via the transmit indicator lamp). 5-4.B,3 signals verter) Merge_d_ Net SC TTY Functional Interface Description. The interface between SC TTY equipment and the DSD (via the CV-3928/FSC level conare discussed below.

a. DATA KEYLINE. DATA KEYLINE is used by the DSD to key the transceiver and multiplexer I/O port. The multiplexer interprets this signal as XMIT REQ. The transceiver interprets this signal as BASEBAND KEYLINE. The signal is at +6 VDC in transmit and -6 VDC when not in transmit. It passes through the level converter unaffected. b. E-D SIGNAL INPUT. ELECTROMAGNETIC-DRIVER SIGNAL INPUT is generated within the TSEC/KW-7 and applied to the DSD. From the DSD the signal is routed to both the AN/WSC-5(V) and TD-~27~B/U for transmission processing. The signal is interpreted by the TD-127~B/U as SERIAL INPUT DATA and XMT DATA by the AN/WSC-5(V). The signal is 75 baud at ~6 VDC. It passes through the level converter unaffected. c. C-K SIGNAL OUTPUT. CONVERTER-KEYER SIGNAL OUTPUT is generated within the TD-1271B/U or AN/WSC-5(V) and routed through the DSD to the TSEC/ KW-7 for receive processing. The signal is also routed to the non-receiving satellite terminal (TD-127~B/U or AN/WSC-5(V)) as E-D SIGNAL INPUT. The nal is outpuz from the TD-1271B/U as OUTPUT DATA and RCV TTY DATA from the AN/WSC-5(V). The signal is 75 baud at +5 VDCo It passes through the level converter unaffected. d° DATA MODE CHANNEL BUSY. DATA MODE CHANNEL BUSY indicates that the transceiver or multiplexer is generating RCV DATA and RCV CLOCK. DATA MODE CKANNEL BUSY is a black control signal with signal levels of ÷6 VDC in receive and -6 VDC when idle. This signal is output from the multiplexer as SIG ACQ and from the transceiver as OUTPUT DATA TRANSFER LL. DATA MODE CHANNEL BUSY is passed through the DSD to the non-receiving satellite terminal (TD-~27%B/U or AN/WSC-5(V)) as DATA KEYLINE; it is also passed to a level converter. The signal levels are converted to ground/open to provide a DATA SIG ACQ IND input to the C-~1330/WSC-5(V) control-indicator. DATA SIG ACQ IND is used to turn on the receive indicator lamp. e. TX ACK. TRANSMIT ACKNOWLEDGE indicates that the transceiver or multiplexer is ready to accept XMT DATA. TX ACK a black control signal with signal levels of +6 VDC in transmit and -6 VDC when not in transmit. This signal is output from the transceiver as MODE~ READY LL. TX ACK is

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passed through the DSD to a level converter. The signal levels are converted to ground/open to provide a GROUND IN TRANSMIT input to the C-11330/WSC-5(V) control-indicator. GROUND IN TRANSMIT is used to turn on the transmit indicator lamp. 5-5 USER TERMINAL EQUIPMENT CONFIGURATIONS. block diagrams (FO-29 through FO-36) which illustrate configuration of shore user terminals. This section provides the overall functional

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CUDIXS/NAVMACS

FUNCTIONAL

BLOCK

DIAGRAM

NOTES

NOTES: Shilaa will have either an ON-143(V)4/USQ, ON-143(V)7/USQ or ON-143(V)91USQ;the and (V)7 will operate non-DAMA only, the (V)9 will operate nOn-DAMA DAMA. or 2. 3. Either DAMA non-DAMAinterlace. or

Shore may simultaneously operate the CUDIXS network on a DAMAand non-DAMAsatellite channel; the ON-143(V)91USQ must be used lot DAMAoperations.

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TADIXS FUNCTIONAL BLOCK DIAGRAM NOTES

NOTES: Either DAMA non-DAMA or interface. 2, Common WeaponsControl System (CWCS) Flag Data Display System(FDDS). In TADIXS implementation phase IlL each shore interlace IOSIS. CSS.TDDS] will have its own ON-143(V}6/USQ. phaseIV. interlace is direct in to the TADIXS GatewayProcessor.

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SSIXS FUNCTIONAL BLOCK DIAGRAMNOTES

NOTES: Either DAMA nOn-DAMA or interface. 2, ON-143(V)6/USQ equipped units only. 3. Imblementation of DAMA aboard submarines is urzder rewew,E~ui0ment and interfaces are to be cleterminecL

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CUDIXS FUNCTIONAL BLOCK DIAGRAM NOTES

NOTES: Functional configuration is applicable to suite A only. Functional configuration tot suites B and C are as ~ollows: Suite B: AN/UYK-20(M} Jll and J12 to SA-17041UGJ40, AN/UYKo20(V)J23 and J24 to SA-17041UGJ46. ANIUYK-20(V) J26 and J30 fo SA-17041UGJ10, ANIUYK-20(V) J31 to SA-1704IUG J16, ANIUYK-20(V) J4 to SA.1704IUG J28, ANIUYK-20(V) J20 to SA-1704/UG J22, AN/UYK-20(V) J16 and J22 to SA-17041UGJ34. AN/UYK-20(V) J25 and J29 to SA-1704IUG Jl. AN/USH-23(V) iN and OUTto SA-17041UGJ45. RD-397A/U J2 and J3 to SA-1704/UG Jg. TT-624(V)/UG J2 to SAo1704/UGJ15. IP-1187A/USQ-64 J1 to SA-1704/UG J27, ATT 201B to SA-1704/UG J21 and ON-143(V)4/USOJ13 and J14 to SAo1704./UG J33. Suite C: AN/UYK-20(V) Jll and J12 to SA-17041UGJ41. ANIUYK-20(V) J23 end J24 to SA-1704IUG J47. ANIUYK.20(V) J26 and J30 to SA-17041UGJll. ANIUYK-20(V) J31 to SA-1704/UG J17. AN/UYK-20(V) J4 to SA-17041UGJ29, AN/UYK-20(V) J20 to SA-17041UGJ23, ANIUYK-20(V) J25 and J29 to SA-17041UGJ5. ANIUSH-22(V) IN and OUTto SA-1704/UG J42. ANIUSH.23(V) IN and OUTto SA.17041UGJ48, RD;397A/U J2 and J3 to SA-1704/UG J12. TT.624(V)IUG J2 to SA-17041UG J18, IP-1187A/USQ.64 J1 to SA-17041UGJ3g, ATT 201B to SA-1704/UG J24 and ON-143(V)4/USQ J13 and Jl,~ to SA-1704/UG J36. Stations will have either an ON-143(V)41USQ ON-143(V)91USQ lor CUDIXS. During the transition to DAMA.the station will operste two separate CUDIXSnetworks using two ON.143(V)9/USQ's. One ON-143(V)9/USQ lot DAMA operation (I/O channel 7) and one ON-143(V)9/USQ tot non-DAMA operation (l/O channel 3). The actual interface the AN/UYK-20(V~is to Pe determined.

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FO- 3 I. TAC1Nq'EL Functional Configuration

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N00600-94-C,-0389

TACINTEL FUNCTIONAL BLOCK DIAGRAM NOTES

NOTE:

only. Funclional are as follows: Suite B:

contlgurahon ~or suites B and C

AN/UYK-20|V) J23 and J24 to SA-17041UGJ64, ANIUYK-20(M) J17 and J18 to SA-17041UGJ58, ANIUYK*20(V~ Jll and J12 to SA-17041UGJ52, ANIUYK-20(V) J26 and J30 to SA-1704/UG J4, AN/UYK-20(x,q J31 to SA-17041UG J10, AN/UYK.20(V~ J4 to SA.1704/'UG d40, ANIUYK-20(V) J2 to SA-1704/UG J16. AN/UYK-20(V) J8 to SA-1704/UG J22, ANIUYK-20(V)J't4 ~o SA-170zlIUG J28. ANIUYK-20(V) JR0 1o SA-17041UGJ34. ANIUYK-20(V) J16 and J22 to SA-17041UGJ45, ANIUSH-22(V) IN and OUTto SA-17041UGJ51, RD-397AIU J2 and J3 to SA-1704fUG J3, T%624(M~/UG to SA-17041UGJg, J2 IP-1187A/USO-6,~ J1 to SA-1704,tUG J39 and ON-la3(V]4/USQ J13 and J14 to SA*lT04/UG J45. Suite C: ANiUYK-20(V) J23 and J24 to SA.1704/UG JGS, ANIUYK-20(V) J17 and J18 to SA-17041UGJ59. AN/UYK-20~V) Jll and J12 to SA.17041UGJ53, ANIUYK-20(V} J26 and J30 to SA.1704/UG J5. AN/UYK*20(M~J31 to SA-17041UGJll, ANIUYK-20(V) J4 to SA-1704/UG J41, ANIUYK-20(V) J2 to SA*lT041UG J17. AN/UYK-20(V) J8 to SA-1704/UG J23, ANtUYK-20(V) J14 to SA-1704/UG J29, AN/UYK-20~V) J2O to SA-1704/UG J35, ANlUYK-20(V) J16 and J22 to SA.1704/UG J47, ANIUSH-23(V) IN and OUT to SA-170MUGJ66. ANIUSH-23(V) IN and OUTto SA-1704/UG J60, AN/USH-22(V) iN and OUTto SA.17041UGJ5,1. RD.397A/U J2 and J3 to SA.1704/UG J6, TT-624{V)IUG J2 to SA-17041UGd12. IP-1187A/USe-64 J 1 ~o SA.17041UGJ42 and ON-143(V)41US{~J13 and J14 to SA-17041UG J48.

AMENDMENT 0007

K- 133

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®

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TACINTEL

FUNCTIONAL

BLOCK CONFIGURATION

NOTES

NOTE: Functional configuration is applicable to suite A only. Functional configuration for suites B and C are as follows: Suite B: ANIUYK*20(V) J23 and J24 to SA-1704/UG J64, ANIUYK-20(V} J17 and J18 to SA-17041UGJ58, AN/UYK*20(V) Jll and J12.to SA*17041UG J52, AN/UYK*20(V~ J26 and J30 to SA-1704/UG ANIUYK-20(V) J31 to SA-1704/UG J10, ANIUYK-20(V) J4 to SAo1704/UGJ40, AN/UYKo20(V) J2 to SA-1704/UG J16. AN/UYK-20(V) J8 to SA-1704/UG J22, AN/UYK-20(~/) J14 to SA-1704/UGJ28, AN/UYK-20(V) J20 to SA-1704/UG J34, AN/UYK-20(V) J16 and J22 to SA-1704/UG J46, ANIUSH-22(V) IN and OU'~ to SA-1704/UG J51, RD-397A/U J2 and J3 to SA*17041UGJ3, TT-624(V}/UG J2 to SA-1704/UG J9, IP*1187AIUSQ-64 J1 to SA-17041UGJ39 and ON-143(V)41USQJ13 and J14 to SA*1704/UG J45. Suite C: ANIUYK-20(V) J23 and J24 fo SA-17041UGJ65. ANlUyKo20(V) J17 and J18 to SA-1704/UG J59. ANIUYK-20(V) Jll and J12 to SA-1704/UG J53~ AN/UYK-20(V) J26 and J30 to SA-1704/UG ANIUYK-20(V) J31 to SA-1704/UG Jll, AN/UYK-20(V) J4 to SA-1704/UG J41, ANIUYK-20(V) J2 to SA-1704IUG J17, ANlUYK-20(M) J8 to SA-17041UGJ23, ANIUYK-20(V) J14 to SA-17041UGJ29, ANIUYK*20(V) J20 to SA-1704/UG J35. AN/UYK-20(V) J16 and J22 to SA-17041UGJ47. ANIUSH-23(V) IN and OUT to SA-17041UGJ66. AN/USH-23(V) IN and OU'~ to SA-1704IUG J60, AN/USH-22(V) IN and OUTto SA-17041UGJ5~, RD-397A/U J2 and J3 to SA-1704/UG TT-624(V)/UG J2 to SA-1704/UG J12, IP-1187AIUSQ-64 J1 to SA*17041UGJ42 and ON-143(V)4/USQ J13 and J14 to SA-17041UGJ48.

AMENDMENT 0007

K - 135

Case 1:02-cv-00796-FMA

Document 46-26

Filed 03/18/2005
~

NAVAL REGIONAL CONT~ CTING CENTER

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NOTES:

AMENDMENT0007

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F0-34.

TADIXS Functional Configuration

NOTES:

AMENDMENT 0007

K - 137

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