NOT RECOMMENDED FOR NEW DESIGNS REPLACED BY
January 2003
HI-8581
HI-8281
ARINC 429 LINE DRIVER AND DUAL RECEIVER
FEATURES
! ARINC specification 429 compliant ! Direct receiver and transmitter interface to ARINC bus in a single device ! 16-Bit parallel data bus ! Timing control 10 times the data rate ! Selectable data clocks ! Receiver error rejection per ARINC specification 429 ! Automatic transmitter data timing ! Self test mode ! Parity functions ! Low power ! Industrial & full military temperature ranges
GENERAL DESCRIPTION
The HI-8281 device from Holt Integrated Circuits is a silicon gate CMOS device for interfacing a 16-bit parallel data bus directly to the ARINC 429 serial bus. The device provides two receivers, an independent transmitter and line driver capability in a single package. The receiver input circuitry and logic are designed to meet the ARINC 429 specifications for loading, level detection, timing, and protocol. The transmitter section provides the ARINC 429 communication protocol and the line driver circuits provide the ARINC 429 output levels. The 16-bit parallel data bus exchanges the 32-bit ARINC data word in two steps when either loading the transmitter or interrogating the receivers. The data bus interfaces with CMOS and TTL. Timing of all the circuitry begins with the master clock input, CLK. For ARINC 429 applications, the master clock frequency is 1 MHz. Each independent receiver monitors the data stream with a sampling rate 10 times the data rate. The sampling rate is software selectable at either 1MHz or 125KHz. The results of a parity check are available as the 32nd ARINC bit. The HI-8281 examines the null and data timings and will reject erroneous patterns. For example, with a 125 KHz clock selection, the data frequency must be between 10.4 KHz and 15.6 KHz. The transmitter has a First In, First Out (FIFO) memory to store 8 ARINC words for transmission. The data rate of the transmitter is software selectable by dividing the master clock, CLK, by either 10 or 80. The master clock is used to set the timing of the ARINC transmission within the required resolution.
PIN CONFIGURATION (Top View)
HI-8281PJI & HI-8281PJT
APPLICATIONS
! Avionics data communication ! Serial to parallel conversion ! Parallel to serial conversion
44 - Pin Plastic PLCC
(See page 12 for additional pin configurations)
(DS8281 Rev. B)
HOLT INTEGRATED CIRCUITS www.holtic.com
01/03
HI-8281
PIN DESCRIPTION
SIGNAL
VCC V+ V429DI1 (A) 429DI1 (B) 429DI2 (A) 429DI2 (B) D/R1 D/R2 SEL EN1 EN2 BD15 BD14 BD13 BD12 BD11 BD10 BD09 BD08 BD07 BD06 GND BD05 BD04 BD03 BD02 BD01 BD00 TX/R PL1 PL2 TXA(OUT) TXB(OUT) ENTX CWSTR CLK TX CLK MR SLP1.5
FUNCTION
POWER POWER POWER INPUT INPUT INPUT INPUT OUTPUT OUTPUT INPUT INPUT INPUT I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O POWER I/O I/O I/O I/O I/O I/O OUTPUT INPUT INPUT OUTPUT OUTPUT INPUT INPUT INPUT OUTPUT INPUT INPUT +5V ±5%
DESCRIPTION
+12V ± 5% or +15V ± 10% -12V ± 5% or -15V ± 10% ARINC receiver 1 positive input ARINC receiver 1 negative input ARINC receiver 2 positive input ARINC receiver 2 negative input Receiver 1 data ready flag Receiver 2 data ready flag Receiver data byte selection (0 = BYTE 1) (1 = BYTE 2) Data Bus control, enables receiver 1 data to outputs Data Bus control, enables receiver 2 data to outputs if EN1 is high Data Bus Data Bus Data Bus Data Bus Data Bus Data Bus Data Bus Data Bus Data Bus Data Bus 0 V - both pins must be connected Data Bus Data Bus Data Bus Data Bus Data Bus Data Bus Transmitter ready flag. Goes low when ARINC word loaded into FIFO. Goes high after transmission and FIFO empty. Latch enable for byte 1 entered from data bus to transmitter FIFO. Latch enable for byte 2 entered from data bus to transmitter FIFO. Must follow PL1. Line driver output - A side Line driver output - B side Enable Transmission Clock for control word register Master Clock input Transmitter Clock equal to Master Clock (CLK), divided by either 10 or 80. Master Reset, active low Logic input to control the slope of the differential output signal. HIGH = 1.5 m s
HOLT INTEGRATED CIRCUITS 2
HI-8281
FUNCTIONAL DESCRIPTION
CONTROL WORD REGISTER
The HI-8281 contains 10 data flip flops whose D inputs are connected to the data bus and clocks connected to CWSTR. Each flip flop provides options to the user as follows:
DATA BUS
ARINC 429 DATA FORMAT
The following table shows the bit positions in exchanging data with the receiver or the transmitter. ARINC bit 1 is the first bit transmitted or received. BYTE 1
BD BD BD BD BD BD BD BD BD BD BD BD BD BD BD BD 15 14 13 12 11 10 09 08 07 06 05 04 03 02 01 00 13 12 11 10 9 31 30 32 1 2 3 4 5 6 7 8
DATA BUS PIN
BDO5
FUNCTION CONTROL
DESCRIPTION
If enabled, the transmitter’s digital outputs are internally connected to the receiver logic inputs If enabled, ARINC bits 9 and, 10 must match the next two control word bits If Receiver 1 Decoder is enabled, the ARINC bit 9 must match this bit If Receiver 1 Decoder is enabled, the ARINC bit 10 must match this bit If enabled, ARINC bits 9 and 10 must match the next two control word bits If Receiver 2 Decoder is enabled, then ARINC bit 9 must match this bit If Receiver 2 Decoder is enabled, then ARINC bit 10 must match this bit Logic 0 enables normal odd parity and Logic 1 enables even parity output in transmitter 32nd bit CLK is divided either by 10 or 80 to obtain XMTR data clock CLK is divided either by 10 or 80 to obtain RCVR data clock
ARINC BIT
SELF TEST
0 = ENABLE
BYTE 2
DATA BUS ARINC BIT BD BD BD BD BD BD BD BD BD BD BD BD BD BD BD BD 15 14 13 12 11 10 09 08 07 06 05 04 03 02 01 00 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14
BDO6
RECEIVER 1 DECODER
1 = ENABLE
BDO7
-
-
THE RECEIVERS
ARINC BUS INTERFACE
Figure 1 shows the input circuit for each receiver. The ARINC 429 specification requires the following detection levels:
BDO8
-
-
BDO9
RECEIVER 2 DECODER
1 = ENABLE
BD10
-
-
STATE ONE NULL ZERO
DIFFERENTIAL VOLTAGE +6.5 Volts to +13 Volts +2.5 Volts to -2.5 Volts -6.5 Volts to -13 Volts
BD11
-
-
BD12
INVERT XMTR PARITY XMTR DATA CLK SELECT RCVR DTA CLK SELECT
1 = ENABLE
The HI-8281 guarantees recognition of these levels with a common mode Voltage with respect to GND less than ±4V for the worst case condition (4.75V supply and 13V signal level). The tolerances in the design guarantee detection of the above levels, so the actual acceptance ranges are slightly larger. If the ARINC signal is out of the actual acceptance ranges, including the nulls, the chip rejects the data.
BD13
0 = ÷10 1 = ÷80 0 = ÷10 1 = ÷80
BD14
vcc
429DI1 (A)
OR
DIFFERENTIAL AMPLIFIERS
COMPARATORS
ONES
429DI2 (A) GND NULL
vcc
429DI1 (B)
OR
ZEROES
429DI2 (B) GND
FIGURE 1. ARINC RECEIVER INPUT
HOLT INTEGRATED CIRCUITS 3
HI-8281
FUNCTIONAL DESCRIPTION (cont.)
RECEIVER LOGIC OPERATION Figure 2 shows a block diagram of the logic section of each receiver. BIT TIMING The ARINC 429 specification contains the following timing specification for the received data: HIGH SPEED LOW SPEED 100K BPS ± 1% 12K -14.5K BPS BIT RATE 10 ± 5 µsec PULSE RISE TIME 1.5 ± 0.5 µsec 10 ± 5 µsec PULSE FALL TIME 1.5 ± 0.5 µsec 5 µsec ± 5% 34.5 to 41.7 µsec PULSE WIDTH The HI-8281 accepts signals that meet these specifications and rejects outside the tolerances. The way the logic operation achieves this is described below: 1. Key to the performance of the timing checking logic is an accurate 1MHz clock source. Less than 0.1% error is recommended. 2. The sampling shift registers are 10 bits long and must show three consecutive Ones, Zeros or Nulls to be considered valid data. Additionally, for data bits, the One or Zero in the upper bits of the sampling shift registers must be followed by a Null in the lower bits within the data bit time. For a Null in the word gap, three consecutive Nulls must be found in both the upper and lower bits of the sampling shift register. In this manner the minimum pulse width is guaranteed.
3. Each data bit must follow its predecessor by not less than 8 samples and no more than 12 samples. In this manner the bit rate is checked. With exactly 1MHz input clock frequency, the acceptable data bit rates are as follows: HIGH SPEED DATA BIT RATE MIN DATA BIT RATE MAX 83K BPS 125K BPS LOW SPEED 10.4K BPS 15.6K BPS
4. The Word Gap timer samples the Null shift register every 10 input clocks (80 for low speed) after the last data bit of a Valid reception. If the Null is present, the Word Gap counter is incremented. A count of 3 will enable the next reception. RECEIVER PARITY The receiver parity circuit counts Ones received, including the parity bit, ARINC bit 32. If the result is odd, then "0" will appear in the 32nd bit.
RETRIEVING DATA
Once 32 valid bits are recognized, the receiver logic generates an End of Sequence (EOS). If the receiver decoder is enabled and the 9th and 10th ARINC bits match the control word program bits or if the receiver decoder is disabled, then EOS clocks the data ready flag flip flop to a "1", D/R1 or D/R2 (or both) will go low. The data flag for a receiver will remain low until after both ARINC bytes from that receiver are retrieved. This is accomplished by activating EN with SEL, the byte selector, low to retrieve the first byte and activating EN with SEL high to retrieve the second byte. EN1 retrieves data from receiver 1 and EN2 retrieves data from receiver 2. If another ARINC word is received, and a new EOS occurs before the two bytes are retrieved, the data is overwritten by the new word.
TO PINS SEL EN D/R DECODER CONTROL BITS
MUX CONTROL
32 TO 16 DRIVER
CONTROL BIT BD14
CLOCK OPTION
CLOCK
CLK
/
LATCH ENABLE CONTROL BITS 9 & 10
32 BIT LATCH BIT COUNTER AND END OF SEQUENCE
32 BIT SHIFT REGISTER
DATA
PARITY CHECK
32ND BIT
BIT CLOCK
EOS
EOS
ONES
WORD GAP
WORD GAP TIMER
BIT CLOCK
SHIFT REGISTER
START
END
NULL
SHIFT REGISTER
SEQUENCE CONTROL
ZEROS
SHIFT REGISTER
ERROR
ERROR DETECTION
CLOCK
FIGURE 2.
RECEIVER BLOCK DIAGRAM
HOLT INTEGRATED CIRCUITS 4
HI-8281
FUNCTIONAL DESCRIPTION (cont.)
TRANSMITTER
A block diagram of the transmitter section is shown in Figure 3.
TRANSMITTER PARITY
The parity generator counts the ONES in the 31-bit word. If the BD12 control word bit is set low, the 32nd bit transmitted will make parity odd. If the control bit is high the parity is even.
FIFO OPERATION
The FIFO is loaded sequentially by first pulsing PL1 to load byte 1 and then PL2 to load byte 2. The control logic automatically loads the 31 bit word in the next available position of the FIFO. If TX/R, the transmitter ready flag is high (FIFO empty), then 8 words, each 31 bits long, may be loaded. If TX/R is low, then only the available positions may be loaded. If all 8 positions are full, the FIFO ignores further attempts to load data.
SELF TEST
If the BD05 control word bit is set low, the digital outputs of the transmitter are internally connected to the logic inputs of the receivers, bypassing the analog bus interface circuitry. Data to Receiver 1 is as transmitted and data to Receiver 2 is the complement. All data transmitted during self test is also present on the TXA(OUT) and TXB(OUT) line driver outputs.
SYSTEM OPERATION
The two receivers are independent of the transmitter. Therefore, control of data exchanges are strictly at the option of the user. The only restrictions are: 1. The received data may be overwritten if not retrieved within one ARINC word cycle. 2. The FIFO can store 8 words maximum and ignores attempts to load addition data if full. 3. Byte 1 of the transmitter data must be loaded first. 4. Either byte of the received data may be retrieved first. Both bytes must be retrieved to clear the data ready flag. 5. After ENTX, transmission enable, goes high it cannot go low until TX/R, transmitter ready flag, goes high. Otherwise, one ARINC word is lost during transmission.
BIT BD12
DATA TRANSMISSION
When ENTX goes high, enabling transmission, the FIFO positions are incremented with the top register loading into the data transmission shift register. Within 2.5 data clocks the first data bit appears at either TXA(OUT) or TXB(OUT). The 31 bits in the data transmission shift register are presented sequentially to the outputs in the ARINC 429 format with the following timing: HIGH SPEED 10 Clocks 5 Clocks 5 Clocks 40 Clocks LOW SPEED 80 Clocks 40 Clocks 40 Clocks 320 Clocks
ARINC DATA BIT TIME DATA BIT TIME NULL BIT TIME WORD GAP TIME
The word counter detects when all loaded positions are transmitted and sets the transmitter ready flag, TX/R, high.
SLP1.5
31 BIT PARALLEL LOAD SHIFT REGISTER
BIT CLOCK
PARITY GENERATOR
DATA AND NULL TIMER SEQUENCER
LINE DRIVER
TXA(OUT) TXB(OUT)
WORD CLOCK
BIT AND WORD GAP COUNTER
START SEQUENCE
8 X 31 FIFO
ADDRESS
LOAD
WORD COUNTER AND FIFO CONTROL
INCREMENT WORD COUNT
TX/R ENTX
FIFO LOADING SEQUENCER
PL1 PL2
DATA BUS
DATA CLOCK
DATA CLOCK DIVIDER
CLK TX CLK
FIGURE 3.
TRANSMITTER BLOCK DIAGRAM
CONTROL BIT BD13
HOLT INTEGRATED CIRCUITS 5
HI-8281
FUNCTIONAL DESCRIPTION (cont.)
LINE DRIVER OPERATION
The line driver in the HI-8281 is designed to directly drive the ARINC 429 bus. The two ARINC outputs (TXA(OUT) and TXB(OUT)) provide a differential voltage to produce a +10 volt One, a -10 volt Zero, and a 0 volt Null. The device incorporates on board zeners to translate internal CMOS levels to ARINC specified amplitudes. A logic input (SLP1.5) is provided to control the slope of the differential output signal. No additional hardware is required to control the slope. A HIGH on SLP1.5 causes a slope of 1.5 µs on the ARINC outputs. A LOW on SLP1.5 causes a slope of 10 µs. Timing is set by on-chip resistor and capacitor and tested to be within ARINC requirements. The HI-8281 has 37.5 ohms in series with each line driver output.
REPEATER OPERATION
Repeater mode of operation allows a data word that has been received by the HI-8281 to be placed directly into its FIFO for transmission. Repeater operation is similar to normal receiver operation. In normal operation, either byte of a received data word may be read from the receiver latches first by use of SEL input. During repeater operation however, the lower byte of the data word must be read first. This is necessary because, as the data is being read, it is also being loaded into the FIFO and the transmitter FIFO is always loaded with the lower byte of the data word first. Signal flow for repeater operation is shown in the Timing Diagrams section.
TIMING DIAGRAMS
DATA RATE - EXAMPLE PATTERN
TXA(OUT)
ARINC BIT
TXB(OUT)
DATA NULL DATA NULL DATA NULL
BIT 30
BIT 31
BIT 32
WORD GAP
BIT 1 NEXT WORD
LOADING CONTROL WORD
DATA BUS
VALID
tCWSET tCWHLD
CWSTR
tCWSTR
RECEIVER OPERATON
ARINC DATA
BIT 31 BIT 32
DATA READY FLAG
D/R
tD/R
BYTE SELECT SEL
DON'T CARE DON'T CARE
tEND/R tEN tSELEN tENEN tDATAEN
BYTE 1 VALID BYTE 2 VALID
DON'T CARE
tSELEN
ENABLE BYTE ON BUS EN
tENSEL
tENSEL
tD/REN
DATA BUS
tDATAEN
tENDATA
tENDATA
HOLT INTEGRATED CIRCUITS 6
HI-8281
TIMING DIAGRAMS (cont.)
TRANSMITTER OPERATION
DATA BUS BYTE 1 VALID BYTE 2 VALID
tDWSET
PL1
tDWHLD
tDWSET
tDWHLD tPL12
tPL
PL2
tPL12
TX/R
tPL
tTX/R
TRANSMITTING DATA
PL2
tDTX/R tPL2EN
TX/R ENTX
tENTX/R
ARINC BIT DATA BIT 1 ARINC BIT DATA BIT 2
tENDAT
ARINC BIT DATA BIT 32
+5V TXA(OUT) -5V +5V TXB(OUT) -5V
+5V
-5V
tfx
+10V V DIFF (TXA(OUT) - TXB(OUT))
90% 10%
+10V
tfx
10% zero level 90%
trx
null level
trx
one level
-10V
HOLT INTEGRATED CIRCUITS 7
HI-8281
TIMING DIAGRAMS (cont.)
REPEATER OPERATION TIMING
429DI BIT 32
tEND/R
D/R
tD/R
EN
tD/REN
tEN
tENEN
tEN
tSELEN
SEL
DON'T CARE
tENSEL
DON'T CARE
tENPL
PL1
tPLEN tENPL
tSELEN
tENSEL tPLEN
PL2
tTX/R
TX/R
tTX/REN
ENTX
tENTX/R
tENDAT
TXA(OUT) TXB(OUT) BIT 1
tDTX/R
BIT 32
tNULL
HOLT INTEGRATED CIRCUITS 8
HI-8281
ABSOLUTE MAXIMUM RATINGS
Supply Voltages Vcc V+ VVoltage at ARINC inputs Voltage at V+ pin Voltage at any other pin -0.3V to +7V Power Dissipation at 25C Plastic PLCC 20V Ceramic J-LEAD CERQUAD -20V -29V to +29V DC Current Drain per pin -0.3 to V+ +0.3V Storage Temperature Range: -0.3V to Vcc +0.3V Operating Temperature Range: (Industrial) (Military) 1.5 W, derate 10mW/°C 1.0 W, derate 7mW/°C ±10mA -65°C to +150°C -40°C to +85°C -55°C to +125°C
NOTE: Stresses above those listed under "Absolute Maximum Ratings" may cause permanent damage to the device. These are stress ratings only. Functional operation of the device at these or any other conditions above those indicated in the operational sections of the specifications is not implied. Exposure to absolute maximum rating conditions for extended periods may affect device reliability.
DC ELECTRICAL CHARACTERISTICS
Vcc = 5V ±5%, V+ = 12V to 15V, V- = -12V to -15V, GND = 0V, TA = Operating Temperature Range (unless otherwise specified).
LIMITS PARAMETER
ARINC INPUTS Differential Input Voltage: (429DI1(A) to 429DI1(B); 429DI2(A) to 429DI2(B)) Input Resistance: ONE ZERO NULL Differential To GND To Vcc Input Sink Input Source Differential To GND To Vcc VIH VIL VNUL RI RG RH IIH IIL CI CG CH Common mode Voltage less than ±4V with respect to GND 6.5 -13.0 -2.5 12 12 12 10.0 -10.0 0 13.0 -6.5 2.5 V V V KW KW KW 200 -450 20 20 20 µA µA pF pF pF
SYMBOL
CONDITIONS
MIN
TYP
MAX
UNIT
27 27
Input Current: Input Capacitance: (Guaranteed but not tested) (429DI1(A), 429DI1(B), 429DI2(A) & 429DI2(B)) BI-DIRECTIONAL INPUTS Input Voltage: Input Current: SLP1.5 INPUT Input Voltage Input Current OTHER INPUTS Input Voltage: Input Current:
Input Voltage HI Input Voltage LO Input Sink Input Source
VIH VIL IIH IIL
2.1 0.7 1.5 -1.5
V V µA µA
Input Voltage HI Input Voltage LO Input Sink Input Source
VIH VIL IIH IIL VIN = 0V VIN = 5V
2.1 -
-
V+ 0.5 0.1 0.1
V V µA µA
Input Voltage HI Input Voltage LO Input Sink Input Source
VIH VIL IIH IIL
3.5 0.7 10 -20
V V µA
HOLT INTEGRATED CIRCUITS 9
HI-8281
DC ELECTRICAL CHARACTERISTICS (cont.)
Vcc = 5V ±5%, V+ = 12V to 15V, V- = -12V to -15V, GND = 0V, TA = Operating Temperature Range (unless otherwise specified).
LIMITS PARAMETER
ARINC OUTPUTS ARINC output voltage One or zero Null ARINC output current OTHER OUTPUTS Output Voltage: Output Current: (Bi-directional Pins) Output Current: (All Other Outputs) Output Capacitance: Operating Supply Current VCC V+ VICC1 IDD1 IEE1 20 16 16 mA mA mA Logic "1" Output Voltage Logic "0" Output Voltage Output Sink Output Source Output Sink Output Source VOH VOL IOL IOH IOL IOH CO IOH = -1.5mA IOL = 1.8mA VOUT = 0.4V VOUT = VCC - 0.4V VOUT = 0.4V VOUT = VCC - 0.4V 2.7 0.4 3.0 1.5 3.6 1.5 15 V V mA mA mA mA pF VDOUt VNOUT IOUT no load and magnitude at pin
" " " " " "
SYMBOL
CONDITIONS
MIN
TYP
MAX
UNIT
4.50 -0.25 80
5.00
5.50 0.25
V V mA
HOLT INTEGRATED CIRCUITS 10
HI-8281
AC ELECTRICAL CHARACTERISTICS
Vcc = 5V, V+=12V to 15V, V- = -12V to -15V,GND = 0V, TA = Oper. Temp. Range and fclk = 1MHz +0.1% with 60/40 duty cycle
PARAMETER
CONTROL WORD TIMING Pulse Width - CWSTR Setup - DATA BUS Valid to CWSTR HIGH Hold - CWSTR HIGH to DATA BUS Hi-Z RECEIVER TIMING Delay - Start ARINC 32nd Bit to D/R LOW: High Speed Low Speed Delay - D/R LOW to EN L0W Delay - EN LOW to D/R HIGH Setup - SEL to EN L0W Hold - SEL to EN HIGH Delay - EN L0W to DATA BUS Valid Delay - EN HIGH to DATA BUS Hi-Z Pulse Width - EN1 or EN2 Spacing - EN HIGH to next EN L0W FIFO TIMING Pulse Width - PL1 or PL2 Setup - DATA BUS Valid to PL HIGH Hold - PL HIGH to DATA BUS Hi-Z Spacing - PL1 or PL2 Delay - PL2 HIGH to TX/R LOW TRANSMISSION TIMING Spacing - PL2 HIGH to ENTX HIGH Delay - 32nd ARINC Bit to TX/R HIGH Spacing - TX/R HIGH to ENTX L0W LINE DRIVER OUTPUT TIMING Delay - ENTX HIGH to TXA(OUT) or TXB(OUT): High Speed Delay - ENTX HIGH to TXA(OUT) or TXB(OUT): Low Speed Line driver transition differential times: (High Speed) (Low Speed) REPEATER OPERATION TIMING Delay - EN LOW to PL LOW Hold - PL HIGH to EN HIGH Delay - TX/R LOW to ENTX HIGH Master Reset Pulse Width ARINC Data Rate and Bit Timing tENPL tPLEN tTX/REN tMR 0 0 0 400 ± 1% ns ns ns ns high to low low to high high to low low to high tENDAT tENDAT tfx trx tfx trx 1.0 1.0 5.0 5.0 1.5 1.5 10 10 27 216 2.0 2.0 15 15 µs µs µs µs µs µs tPL2EN tDTX/R tENTX/R 0 0 400 µs ns ns tPL tDWSET tDWHLD tPL12 tTX/R 200 110 20 0 840 ns ns ns ns ns tD/R tD/R tD/REN tEND/R tSELEN tENSEL tENDATA tDATAEN tEN tENEN 240 50 0 200 20 50 200 30 16 128 µs µs ns ns ns ns ns ns ns ns tCWSTR tCWSET tCWHLD 130 140 0 ns ns ns
SYMBOL
LIMITS MIN TYP MAX
UNITS
HOLT INTEGRATED CIRCUITS 11
HI-8281
ADDITIONAL HI-8281 PIN CONFIGURATION
HI-8281CJI & HI-8281CJT
(See page 1 for plastic PLCC pin configuration)
ORDERING INFORMATION
PART NUMBER
HI-8281PJI HI-8281PJT HI-8281CJI HI-8281CJT
PACKAGE DESCRIPTION 44 PIN PLASTIC J LEAD 44 PIN PLASTIC J LEAD 44 PIN CERQUAD J LEAD 44 PIN CERQUAD J LEAD
TEMPERATURE RANGE
-40°C TO +85°C -55°C TO +125°C -40°C TO +85°C -55°C TO +125°C
FLOW
I T I T
BURN IN
NO NO NO NO
LEAD FINISH SOLDER SOLDER SOLDER SOLDER
HOLT INTEGRATED CIRCUITS 12
HI-8281 PACKAGE DIMENSIONS
inches (millimeters)
44-PIN PLASTIC J-LEAD PLCC
PIN NO. 1 .045 x 45° PIN NO. 1 IDENT .045 x 45°
PACKAGE TYPE:
.050 ± .005 (1.27 ± .127) .690 ±.005 (17.526 ±.127) SQ. .653 ± .004 (16.586 ± .102) SQ. .031 ± .005 (.787 ± .127) .017 ± .004 (.432 ± .102)
SEE DETAIL A .172 ±.008 (4.369 ±.203) .610 ±.020 (15.494 ± .508)
.009 .011
.015 ± .002 (.381 ± .051) .020 MIN (.508 MIN) R .025 .045
DETAIL A
44-PIN CERQUAD J-LEAD
Package Type:
2 1 44 43
.688 ± .005 (17.475 ± .127) MAX. SQ.
.620 ± .012 (15.748 ± .305)
.650 ± .010 (16.510 ± .254) SQ. .039 ± .005 (.990 ± .127) .019 ± .002 (.483 ± .051) .200 MAX. (5.080) .100 ± .007 .050 TYP. (2.540 ± .178) (1.270)
HOLT INTEGRATED CIRCUITS 13