5962-9063601HXC - Aeroflex Incorporated

SCDCT1820 Rev F

DESCRIPTION

The Aeroflex Plainview CT1820 Bit Processor Unit (BPU) is an advanced Hybrid Microcircuit that provides the

interface between a MIL-STD-1553 Transceiver such as CT3231M or CT3232M, and the subsystem internal

parallel data bus. The unit can be employed as the mux bus interface for Remote Subsystems or Master Terminal

Bus Controllers, thus providing a common interface for all systems communicating over the bus.

The unit places no restrictions on Command, Response or polling operations as it transfers all Command, Status

and Data words from the bus to parallel output lines, together with error information, bus status and

handshaking signals. It also contains 5 Bit Address Recognition, Broadcast and Mode Code Decode, Terminal

Fail Safe Signal and Self Test.

In the transmit mode, it accepts parallel data from the user and transmits Command, Status and Data words,

under subsystem control, to the data bus. Positive handshaking signals provide logic control synchronisation

between the unit and the subsystem for direct data flow.

The hybrid is completely compatible with all the electrical and functional specification requirements of

MIL-STD-1553 A & B.

FEATURES

❑Performs Encoder, Decoder, Logic and Control functions of a Data Bus Terminal to MIL-STD-1553

specifications, including Address, Mode Code and Broadcast Decoding and Terminal Fail Safe

❑Flexibility - all control lines accessible

❑Parallel tri-state subsystem l/O bus compatible with both 16 bit and 8 bit systems

❑Dual rank l/O registers for versatile subsystem tlmlng

❑Operates from +5VDC @ 50mA

❑Self-contained +5Vdc oscillator and clock driver @ 13 mA

❑Look-ahead serial receive data output

❑Self-test, on-line wraparound, plus off-line capability

❑Full military (-55°C to +125°C) temperature range

❑Designed for commercial, industrial and aerospace applications

❑MIL-PRF-38534 compliant

❑Packaging – Metal hermetic

- 56 pin, plug-in, 1.155"W x 2.155"L x .200"Ht

- 60 lead, flat-pack, 1.015"W x 1.59"L x .147"Ht

❑DESC Standard microcircuit drawing (SMD): 5962-90636

CT1820

Data Terminal Bit Processor

www.aeroflex.com/Avionics

April 10, 2008

for MIL-STD-1553 A & B

SCDCT1820 Rev F 4/10/08 Aeroflex Plainview

Figure 1 – FUNCTIONAL DIAGRAM

SERIAL DATA OUT

FIRST

RANK

REC’V

REG

D0 - D7

SECOND

RANK

REC’V

REG

D0 - D7

FIRST

RANK

REC’V

REG

D8 - D15

SECOND

RANK

REC’V

REG

D8 - D15

FIRST

RANK

XMT

REG

DO - D7

SECOND

RANK

XMT

REG

DO - D7

FIRST

RANK

XMT

REG

D8 - D15

SECOND

RANK

XMT

REG

D8 - D15

MANCHESTER

DECODER

CONTROL LOGIC

MANCHESTER

ENCODER

CONTROL LOGIC

OSC

CLOCK

DRIVER

BROAD-

CAST

DECODE

RT ENABLE

(MSB) A4

(LSB) A0

5 BIT

ADDRESS

{

BROADCAST

MODE CODE

VALID WORD

COMM/DATA SYNC

MODE

CODE

DECODE

DEC RST

TAKE DATA

DSC OUT

(LSB) D0

D10

D11

D12

D13

D14

(MSB) D15

(OPTIONAL)

SERIAL

INPUT

LATCH

DATA

LATCH DATA 1

LOAD

DATA 2

LOAD DATA 1

GND

Vcc

+5V

CASE

DATA IN

BIT SELECT

DATA OUT

FAIL SAFE

SEND DATA

ESCOUT

SYNC SEL

ENC ENA

OUTPUT INH

MRST

+5V OSC / CLOCK POWER

XTAL

CLOCK OUT

CLOCK IN

DATA SELECT 1

DATA

SELECT 2

BUILT IN

TEST

SELECT

ADDRESS

DECODE

FAIL SAFE

TIMER

CONTROL

(Plug-in Pins shown)

SCDCT1820 Rev F 4/10/08 Aeroflex Plainview

ABSOLUTE MAXIMUM RATINGS

Parameter Range Units

Supply Voltage +7.0 V

Logic Input Voltage -0.3 to +5.5 V

Clock Output Current (Pin 18 - Plug-in) 15 mA

Clock In (Pin 17 - Plug-in) -0.3 to VCC +0.3V V

Storage Temperature Range -65 to +150 °C

Operating Case Temperature Range -55 to +125 °C

ELECTRICAL CHARACTERISTICS

(VCC = 5.0V ±10%, TC = -55°C to +125°C)

Sym Parameter / Conditions Min Typ Max Units

VIH Logic "1" Input Voltage 2.0 - - V

VIL Logic "0" Input Voltage --0.7V

VOH Logic "1" Output Voltage See Pin assignments and Loading

VOL Logic "0" Output Voltage See Pin assignments and Loading

VIHC Logic "1" Input Voltage (CLOCK) VCC-0.5 - V

VILC Logic "0" Input Voltage (CLOCK) -GND+0.5V

VOHC Logic "1" Output Voltage (CLOCK) VCC-0.3 - V

VOLC Logic "0" Output Voltage (CLOCK) -GND+0.3V

lOC Logic Supply Current --50mA

lOSC Oscillator / Clock Supply Current 813mA

DATA

BUS

DATA

OUT

DATA

OUT

DATA

OUT

DATA

OUT

DATA

OUT

INHIBIT

OUT

XTAL

MHz

CONTROL

DATA

16 BIT

8 BIT

SUB-

SYSYEM

CT1820

BIT

PROCESSOR

26 10

CT3231

T/R

HYBRID

Figure 2 – TYPICAL MIL-STD-1553 DATA TERMINAL

SCDCT1820 Rev F 4/10/08 Aeroflex Plainview

ELECTRICAL CHARACTERISTICS – PIN ASSIGNMENTS AND LOADING

In the following table, the symbols are defined as follows:

IIH= maximum input HIGH current with VIH = 2.5 volts

IIL = maximum input LOW current with VIL = 0.4 volts

IOH = maximum output HIGH current for VOH = 2.5 volts minimum

IOL = maximum output LOW current for VOL = 0.4 volts maximum

* Indicates use of an internal pull-up resistor

Pin No Name CT1820 CT1820-2 Description

Plug

Flat

Pack

IIH

(μA)

IIL

(mA)

IOH

(μA)

IOL

(mA

IOL

(mA)

16VCC -- -- - +5V Power Input

27D8 20 -0.4 -1000 6.0 10.0 Part of 16 Bit TRI-STATE l/O

38D9

49D10

510D11

611D12

712DATA SELECT 1 20 -0.4 A LOW on this input applies the contents of the SECOND RANK REC’V

REG to the D8-D15 I/O pins

813A3* 20 -0.4 Part of 5 Bit ADDRESS INPUT

914A2*

10 15 A1*

11 16 GROUND Logic and power return

12 17 A4* 20 -0.4 MSB of 5 Bit ADDRESS INPUT

13 18 A0* LSB of 5 Bit ADDRESS INPUT

14 19 VALID WORD -400 4.0 4.0 A LOW on this output indicates receipt of avalid word

15 20 FAIL SAFE -400 4.0 4.0 A HIGH on this output indicates termination of a transmitted message

that exceeds 768μs.

16 21 COMM / DATA SYNC -400 4.0 4.0 A HIGH on this output indicates COMMAND (or STATUS) word

reception. A LOW indicates DATA word reception.

17 22 CLOCK IN +100 +0.1 Input for 12MHz clock (20pf load).

18 23 CLOCK OUT -1000 1.0 1.0 Output of OSCILLATOR AND CLOCK DRIVER.

19 24 S/T SELECT 20 -0.4 A HIGH on this input sets the unit in the self test mode.

20 25 CASE CASE CONNECTION

21 26 DATA IN 20 -0.4 A HIGH on this input represents a positive state on the bus.

22 27 DATA IN 20 -0.4 A HIGH on this input represents a negative state on the bus. (Pins 21

and 22 must both be high when the bus is inactive.)

23 28 ENC ENA 20 -0.4 A LOW on this input initiates a transmit cycle.

24 29 SYNC SEL 20 -0.4 Actuates COMMAND (or STATUS) sync for an input LOW and DATA

sync for an input HIGH.

25 32 DATA OUT -400 4.0 4.0 A HIGH on this output produces a positive state on the bus.

26 33 DATA OUT -400 4.0 4.0 A HIGH on this output produces a negative state on the bus.

27 34 SEND DATA -400 4.0 4.0 A HlGH on this output indicates data shifting during the transmit cycle.

28 35 ESC OUT -1000 1.2 1.2 LOW to HIGH transitions on thls output during HIGH SEND DATA cause

the transmit cycle data shifting to occur.

29 36 XTAL A 12MHz (parallel resonant) crystal is connected between this pin and

ground.

30 37 +5V (OSC/CLOCK) +5V power for OSCILLATOR AND CLOCK POWER DRIVER.

31 38 DSC OUT -1000 1.2 1.2 LOW to HIGH transitions on this output during LOW TAKE DATA cause

receive cycle data shifting to occur.

32 39 RT ENABLE -400 4.0 4.0 A HIGH on this output indicates reception of a valid COMMAND (or

STATUS) word containing the terminalís address. It also resets the FAIL

SAFE.

SCDCT1820 Rev F 4/10/08 Aeroflex Plainview

33 40 DEC RST 20 -0.4 A LOW on this input (for 1µs minimum) resets the decoder to a condition ready for

a new word, resets the COMM / DATA SYNC output LOW, and resets the VALID

WORD output HIGH.

34 41 GROUND Logic and Power Return.

35 42 OUTPUT INH 20 -0.4 A LOW on this input holds output pins 25 and 26 LOW.

36 43 SERIAL DATA OUT -400 4.0 4.0 The received serial data in NRZ format is available at this pin during

LOW TAKE DATA.

37 44 TAKE DATA -400 4.0 4.0 A LOW on this output indicates data shifting during the receive cycle.

38 45 MRST 20 -0.4 A LOW on this input (for 1μs minimum) interrupts and clears the

transmit cycle, resets the FAIL SAFE, and also performs the same

functions as DEC RST.

39 46 BROADCAST*-400 4.0 4.0 A HIGH on this output indicates reception of a valid COMMAND (or

STATUS) word containing all ONES in the address field.

40 47 MODE CODE*-600 6.0 6.0 A LOW on this output indicates reception of a valid COMMAND (or

STATUS) word containing all ONES or all ZEROS in the sub-address

field.

41 48 D6 20 -0.4 -1000 6.0 10.0 Part of 16 Bit TRI-STATE l/O

42 49 D7

43 50 DATA SELECT 2 20 -0.4 A LOW on this input applies the contents of the SECOND RANK REC’V

REG to the D0-D7 I/O pins.

44 51 D5 20 -0.4 -1000 6.0 10.0 Part of 16 Bit TRI-STATE l/O

45 52 D0 LSB of 16BIT TRI-STATE I/O

46 53 D1 Part of 16 Bit TRI-STATE l/O

47 54 D2 Part of 16 Bit TRI-STATE l/O

48 55 D3 Part of 16 Bit TRI-STATE l/O

49 56 LATCH DATA 2 -0.4 A HIGH on this input allows the l/O data on D0-D7 to appear at the

output of the FIRST RANK XMT REG. A LOW on this input holds the

50 57 D4 -0.4 -1000 6.0 10.0 Part of 16 Bit TRl-STATE l/O

51 58 LOAD DATA 2 -0.4 A LOW on this input loads the D0-D7 data into the SECOND RANK XMT

REG. A HIGH on this input then locks out the data inputs to permit serial

shifting.

52 59 LATCH DATA 1 A HIGH on this input allows the l/O data on D8-D15 to appear at the

output of the FIRST RANK XMT REG. A LOW on this input holds the

53 2 LOAD DATA 1 20 -0.4 A LOW on this input loads the D8-D15 data into the SECOND RANK

XMT REG. A HIGH on this input then locks out the data inputs to permit

serial shifting.

54 3 D13 -0.4 -1000 6.0 10.0 Part of 16 Bit TRl-STATE l/O.

OPTIONAL SERIAL INPUT.

55 4 D14

56 5 D15

-1NC -- -- - No Contact

-30NC -- -- -

-31NC -- -- -

-60NC -- -- -

ELECTRICAL CHARACTERISTICS – PIN ASSIGNMENTS AND LOADING con’t

In the following table, the symbols are defined as follows:

IIH= maximum input HIGH current with VIH = 2.5 volts

IIL = maximum input LOW current with VIL = 0.4 volts

IOH = maximum output HIGH current for VOH = 2.5 volts minimum

IOL = maximum output LOW current for VOL = 0.4 volts maximum

* Indicates use of an internal pull-up resistor

Pin No Name CT1820 CT1820-2 Description

Plug

Flat

Pack

IIH

(μA)

IIL

(mA)

IOH

(μA)

IOL

(mA

IOL

(mA)

SCDCT1820 Rev F 4/10/08 Aeroflex Plainview

TRANSMIT CYCLE OPERATION

ENCODER SHIFT CLOCK (ESC) (see Figure 3) operates at

the data rate (1MHz). A low at ENCODER ENABLE (ENC

ENA) during a falling edge of ESC ① starts the Transmit

cycle, which lasts for twenty ESC clock periods. The SYNC

SELECT (SYNC SEL) input is valid at the next low-to-high

transition of ESC . A high at SYNC SEL will produce a data

sync, or a low will produce a command sync for that word.

Parallel data must be stable at the second rank transmit

is not synchronous with ESC, the minimum time to ③ is

3μsec from ENC ENA leading edge.

The first-rank transmit register may be operated

transparently (LATCH DATA always high), or may be used to

hold data ready for transmission, independent of the activity

on the 16-line subsystem l/O bus. As long as LATCH DATA

is held high, data present on the subsystem l/O bus appears

at the output of the first rank transmit register. Stable data

may be latched and held at the first rank register output by

bringing LATCH DATA low. Data to be transmitted may be

latched any time before the low-to high transition of SEND

DATA (SEND DATA, when appled to the LOAD DATA

inputs, locks out the data inputs to the second rank transmit

may be inputted and latched any time after ③, but before

the next low to-high transition of SEND DATA.

SEND DATA remains high for 16 ESC periods, during which

the parallel transmit data is clocked to the MANCHESTER

ENCODER ③ to ④. After the sync and Manchester coded

data are transmitted through the DATA OUT and DATA OUT

outputs, the ENCODER adds on the parity bit for that word

⑤.

If the transmitted word is to be the last word of the

transmission, ENC ENA must go high by ⑤ to prevent

initiation of another transmit cycle.

At any time, a low applied to OUTPUT INHIBIT will force both

DATA OUT and DATA OUT to a low state without affecting

any other operations.

The entire transmit cycle may be interrupted and cleared by

applying a minimum of 1μsec negative pulse to the MASTER

RESET (MRST) input.

For 8-BlT I/O subsystems, D0 is tied to D8, D1 tied to D9,

etc., through D7 tied to D15, and data is inputted in 8-BlT

bytes by using LATCH DATA 1 and LATCH DATA 2 and/or

LOAD DATA 1 and LOAD DATA 2 independently.

For serial data applications, D15 input serves as the serial

transmit input. With LOAD DATA 1 held low and LATCH

DATA 1 held high, D15 input is applied to the ENCODERís

serial data input. Inputted data must be at the ESC rate with

the MSB starting at the low-to-high transition of SEND DATA.

If a message length ever exceeds 768μsec, the 768μsec

TIME OUT (FAIL SAFE) flag goes high, and DATA OUT and

DATA OUT are both forced to a low state. This condition will

remain until a valid command word (containing the

terminalís address) is received or until MRST goes low.

½ SYNC½ SYNC151413 210P½ SYNC½ SYNC151413 210P

½ SYNC ½ SYNC 15 14 13 2 1 0 P ½ SYNC ½ SYNC 15 14 13 2 1 0 P

4 5

012345 16171819012345 16 17 18 19

VALID

DON’T CARE

VALID

SEE

TEXT

SEE

TEXT

DON’T CARE

ESC

SYNC SEL

ENC ENA

LATCH DATA

DATA SELECT

SEND DATA

& LOAD DATA

DATA OUT

IF USED

DEPENDS ON "LATCH" TIMING

OPTIONAL NEXT-WORD LATCH

DEPENDS ON "LATCH" TIMING

OPTIONAL NEXT-WORD LATCH

Figure 3 – TRANSMIT CYCLE TIMING

SCDCT1820 Rev F 4/10/08 Aeroflex Plainview

Symbol Description Min Max Units

TE1ENCODER ENABLE Set-up Time 100 - ns

TE2ENCODER ENABLE Hold Time 80 - ns

TE3SYNC SELECT Set-up Time 125 - ns

TE4SYNC SELECT Hold Time 150 - ns

TE5SEND DATA Delay Time -75ns

TE6LATCH DATA Hold Time 25 - ns

TE7LATCH DATA Set-up Time 50 - ns

TE8, TE12 1 /Parallel Data Set-up Time 40 - ns

TE9, TE13 1/Parallel Data Hold Time 60 - ns

TE10 DATA SELECT Disable Time 30 - ns

TE11 DATA SELECT Hold Time 0-ns

NOTE: 1/ TE12 and TE13 apply when LATCH DATA is not used.

Figure 4 – ENCODER TIMING DETAIL

SCDCT1820 Rev F 4/10/08 Aeroflex Plainview

RECEIVE CYCLE OPERATION

DECODER SHIFT CLOCK (DSC) (see Figure 5) operates at

the data rate (1MHz). When the DECODER recognises a

valid sync and two valid Manchester data bits ①, a receive

cycle is initiated. The new sync is indicated at the

COMMAND/DATA SYNC (C/D SYNC) output and the TAKE

DATA output goes low . The C/D sync output will remain

in its valid state until a new sync is detected on a

subsequent word or until DECODER RESET (DEC RST) or

MRST goes low. A low at DEC RST or MRST causes C/D

SYNC to go low.

TAKE DATA remains low for 16 DSC periods during which

time the 16 serial data bits appear at the SERIAL DATA

OUTPUT (SDO). This data is simultaneously loaded into the

first-rank receive register. The low-to-high transition of

TAKE DATA ③ makes the new data available at the output

of the second-rank receive register. This data remains

available until the next low-to-high transitions of TAKE

DATA. It is not reset or cleared by any other signals. This

data is applied to the D0 to D15 I/O bus by setting DATA

SELECT lines low.

After all data has been loaded into the receive registers, the

data is checked for odd parity. A low on VALID WORD (VW)

output ③, indicates successful reception of a word without

any Manchester or parity errors. For consecutive word

receptions, VW will go high again in 3 to 3.5μs. In the

absence of succeeding valid syncs, VW will return high in

20μs. A DEC RST (low) at any time will reset VW high.

All decoded commands, including RT ENABLE (address

recognition), BROADCAST and MODE CODE are enabled

internally by VW and remain valid only as long as VW is low.

For 8-BIT l/O subsystems (D0 tied to D8, through D7 tied to

D15), data may be extracted in 8 BIT bytes by selectively

activating DATA SELECT 1 and DATA SELECT 2.

For serial data systems, SERIAL DATA OUTPUT is available

at the DSC rate from to ③.

012345 16171819012345 16171819

½ SYNC ½ SYNC 15 14 13 2 1 0 P ½ SYNC ½ SYNC 15 14 13 2 1 0 P

½ SYNC ½ SYNC 15 14 13 2 1 0 P ½ SYNC ½ SYNC 15 14 13 210P

FROM PREVIOUS WORD

15 43210 15 4321 0

FROM PREVIOUS WORD

UNDEFINED

VALID FOR CURRENT WORD VALID FOR CURRENT WORD

UNDEFINED

NOT VALID

FROM PREVIOUS WORD

OPTIONAL–HIGH = TRISTATE HI-Z AT D0 TO D15 OPTIONAL–HIGH = TRISTATE HI-Z AT D0 TO D15

NEW DATA

VALID NOT VALID VALID

NEW DATA

OSC

DATA IN

TAKE DATA

C/D SYNC

SDO

DECODE COMMANDS

SECOND-RANK REC’V

DATA SELECT

(see text)

Figure 5 – RECEIVE CYCLE TIMING

SCDCT1820 Rev F 4/10/08 Aeroflex Plainview

Symbol Description Min Max Units

TD1TAKE DATA Delay On Time -125ns

TD2TAKE DATA Delay Off Time -125ns

TD3Sync Delay Time -60ns

TD4VALID WORD Delay Time -125ns

TD5BROADCAST Delay Time -70ns

TD6RT ENABLE Delay Time -100ns

TD7MODE CODE Delay Time -100ns

TD8DATA SELECT Input Delay Time 1/0-ns

TD9Parallel Data Output Delay Time -60ns

NOTE: 1/ DATA SELECT may be applied at any tlme that the 16 line I/O is otherwise free. The parallel Data Out,

however, is not ’New Data’ until after TAKE DATA goes high.

Figure 6 – DECODER TIMING DETAIL

SCDCT1820 Rev F 4/10/08 Aeroflex Plainview

SELF TEST FUNCTION

A high on the S/T SELECT input sets the hybrid in the SELF

TEST mode. In this mode, the DATA and DATA output lines

are connected to the Decoder inputs so that the unit may

operate in the "wraparound" mode without actually going

through the data bus transceiver. Note that the DATA and

DATA output lines are active in this mode and the S/T

SELECT command must also be used to inhibit the data bus

transmitter to prevent arbitrary transmission on the data

bus.

TERMINAL FAIL SAFE

In order to satisfy the Terminal Fail Safe requirements of

MIL-STD-1553B, the DATA and DATA output lines are

continuously monitored for length of message. A

transmitted message in excess of 768μs sets the FAIL SAFE

output high and terminates the transmission by setting both

DATA and DATA output lines low. As a redundant safety

factor, the FAlLSAFE output may be applied to the lNHlBlT

input of the data bus transmitter (if so equipped). Further

transmissions are prevented until the FAIL SAFE flag is reset

either by reception of a valid command word containing the

terminal address or by a negative pulse on the MRST input.

Note: Transmissions containing gaps of 3μs or less are

considered continuous, even if the gap is caused by a MRST

pulse.

TERMINAL ADDRESS LINES

The five-bit terminal address is set by hard wiring the 5-BlT

ADDRESS lines. The hybrid contains internal pull-up

resistors so that logic "1" lines may be left open circuited.

Logic "0" lines must be grounded.

In operation, RT ENABLE goes high when a valid command

word containing the hard-wired address is received. See

"RECEIVE CYCLE OPERATION" for timing.

OSCILLATOR AND CLOCK DRIVER

The hybrid may be operated with either the internal clock

or an external clock source.

For internal clock operation, a 12MHz parallel-resonant

fundamental-mode crystal must be connected from XTAL

to ground. Power (+5V) must be applied to +5V

OSC/CLOCK POWER and CLOCK OUT must be connected

to CLOCK IN.

For external clock operation, no power is applied to +5V

OSC/CLOCK POWER and the external clock is applied to

CLOCK IN (CLOCK OUT not connected). The external clock

must be capable of driving a 20 picofarad load to within 0.5

volts of VCC and within 0.5 volts of ground with rise and fall

times of less than 10 nanoseconds. Standard TTL levels are

not satisfactory. For a normal 1MHz data rate, the clock

frequency must be 12MHz.

FALSE RT ENABLE

Terminals that continuously monitor their own

transmissions are subject to "END-AROUND" operation

due to a false RT ENABLE. The terminal can erroneously

interpret its own status word as a new command word. If no

measures are taken to prevent or re-set RT ENABLE, it will

remain high for 20μs or until the DECODER recognises a

new valid sync (whichever time is shorter).

RT ENABLE may be inhibited by interrupting the RECEIVE

CYCLE during a status word transmission. Inverted SEND

DATA applied to DEC RST will prevent reception of the

status word.

If continuous monitoring is required, RT ENABLE may be

reset immediately after it goes high by a 1μs (minimum) low

at DEC RST. The status word will then be available at the

second-rank receive register.

SCDCT1820 Rev F 4/10/08 Aeroflex Plainview

PIN OUT DESCRIPTION (FLAT PACK)

#Function Pin

#Function

1NC 31NC

2LOAD DATA 1 32 DATA OUT

3D13 33DATA OUT

4D14 34SEND DATA

5D15 35ESC OUT

6VCC 36 XTAL

7 D8 37 +5V (OSC/CLOCK)

8D9 38DSC OUT

9D10 39RT ENABLE

10 D11 40 DEC RST

11 D 12 41 G R O U N D

12 DATA SELEC T 1 42 OUTPUT INH

13 A3 43 SERIAL DATA OUT

14 A2 44 TAKE DATA

15 A1 45 MRST

16 GROUND 46 BROADCAST

17 A4 47 MODE CODE

18 A0 48 D6

19 VALID WORD 49 D7

20 FAIL SAFE 50 DATA SELECT 2

21 COMM/DATA SYNC 51 D5

22 CLOCK IN 52 D0

23 CLOCK OUT 53 D1

24 S/T SELECT 54 D2

25 CASE 55 D3

26 DATA IN 56 LATCH DATA 2

27 DATA IN 57 D4

28 ENC ENA 58 LOAD DATA 2

29 SYNC SEL 59 LATCH DATA 1

30 NC 60 NC

PIN OUT DESCRIPTION (PLUG-IN)

#Function Pin

#Function

1 VCC 29 XTAL

2 D8 30 +5V (OSC/CLOCK)

3D9 31DSC OUT

4 D10 32 RT ENABLE

5D11 33DEC RST

6D12 34GROUND

7DATA SELECT 1 35 OUTPUT INH

8A3 36 SERIAL DATA OUT

9A2 37TAKE DATA

10 A1 38 MRST

11 G R O U N D 3 9 B R O A D C A S T

12 A4 40 MODE CODE

13 A0 41 D6

14 VA LID W ORD 42 D7

15 FAI L SAFE 43 DATA SELECT 2

16 COMM/DATA SYNC 44 D5

17 CLOCK IN 45 D0

18 CLOCK OUT 46 D1

19 S/T SELECT 47 D2

20 CASE 48 D3

21 DATA IN 49 LATCH DATA 2

22 DATA IN 50 D4

23 ENC ENA 51 LOA D DATA 2

24 SYNC SEL 52 LATCH DATA 1

25 DATA OUT 53 LOAD DATA 1

26 DATA OUT 54 D13

27 SEND DATA 55 D14

28 ESC OUT 56 D15

SCDCT1820 Rev F 4/10/08 Aeroflex Plainview

Plug-In Package Outline

mm sehcnI

50. 200.

64. 810.

45.2 001.

80.5 002.

34.11 054.

68.22 009.

43.92 551.1

62.84 009.1

47.45

551.2

:SETON

.sehcni ni era snoisnemiD .1

.ylno noitamrofni lareneg rof nevig era stnelaviuqe cirteM

ceps esiwrehto sselnU .3 ified, tolerances are ± .005 (0.13 mm) for three place decimals.

Top View

SCDCT1820 Rev F 4/10/08 Aeroflex Plainview

Flat Package Outline

mm sehcnI

50. 200.

31. 500.

83. 510.

98.8 053.

87.52 510.1

38.63 054.1

93.04 095.1

:SETON

.sehcni ni

era snoisnemiD .1

.ylno noitamrofni lareneg rof nevig era stnelaviuqe cirteM .2

Top View

.065

±.005

.147

1.65

3.73

.010 .254

MAX

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www.aeroflex.com info-ams@aeroflex.com

Aeroflex Microelectronic Solutions reserves the right to

change at any time without notice the specifications, design,

function, or form of its products described herein. All

parameters must be validated for each customer's application

by engineering. No liability is assumed as a result of use of

this product. No patent licenses are implied.

SCDCT1820 Rev F 4/10/08

Our passion for perform ance is defined by three

attributes represented by these thre e icons:

solution-minded, perform an ce-d riven an d custo m er-fo cuse d

EXPORT CONTROL: EXPOR T WARNING:

This product is controlled for export under the International Traffic in

Arms Regulations (ITAR). A license from the U.S. Department of

State is required prior to the export of this product from the United

States.

Aeroflex’s military and space products are controlled for export under

the International Traffic in Arms Regulations (ITAR) and may not be

sold or proposed or offered for sale to certain countries. (See ITAR

126.1 for complete information.)

ORDERING INFORMATION

Aeroflex Part # DSCC SMD # Screening Package

CT1820 -Military Temperature, -55°C to +125°C

Screened in accordance with

MIL-PRF-38534, Class H

Plug-in

CT1820-FP -Flat Pack

CT1820-2 -Plug-in

CT1820-2-FP -Flat Pack

CT1820-001-1

CT1820-001-2

5962-9063601HXC

5962-9063601HXA Per DSCC SMD 5962-90636 Plug-in

CT1820-2-001-1

CT1820-2-001-2

5962-9063602HXC

5962-9063602HXA

CT1820-201-1 5962-9063601HYC Flat Pack

CT1820-2-201-1 5962-9063602HYC