DEI1046-TES-G [DEIAZ]
OCTAL ARINC 429 LINE RECEIVER;型号: | DEI1046-TES-G |
厂家: | Device Engineering Incorporated |
描述: | OCTAL ARINC 429 LINE RECEIVER 信息通信管理 光电二极管 接口集成电路 |
文件: | 总8页 (文件大小:413K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
Device
Engineering
Incorporated
DEI1046
OCTAL ARINC 429 LINE
RECEIVER
385 East Alamo Drive
Chandler, AZ 85225
Phone: (480) 303-0822
Fax: (480) 303-0824
E-mail: admin@deiaz.com
NOT FOR NEW DESIGNS
REPLACED BY DEI1046A
FEATURES
·
·
·
·
·
·
Octal ARINC 429 to TTL/CMOS logic line receivers
Drop-in replacement for HI-8456PS_
Operates from single +5 V ± 10% or 3.3 V + 10% -5% power supply
ARINC inputs internally protected to lightning requirements of DO-160 Level 3 pin injection
Withstands inadvertent short to 115 Vac on inputs
Operates in high noise environment
o
o
Input Common Voltage Range: ± 20 V
2 V minimum Input hysteresis
·
·
High input resistance allows use of external series resistors to support:
o
o
Lightning protection beyond Level 3
Fault isolation
Package: 38L TSSOP, 4.4 mm body
DEI1046 PINOUT
Table 1 DEI1046 Pin Description
PIN
NAME
DESCRIPTION
15, 13, 11, 9,
7, 5, 3, 1
429 INPUTS. ARINC 429 format serial
digital data “A” inputs.
IN[8:1]A
16, 14, 12, 10,
8, 6, 4, 2
429 INPUTS. ARINC 429 format serial
digital data “B” inputs.
IN[8:1]B
17
18
19
NC
Not connected.
TESTA
TESTB
LOGIC INPUT, Test input A
LOGIC INPUT, Test input B
21, 23, 25, 27,
32, 34, 36, 38
LOGIC OUTPUTS. CMOS/TTL format
serial digital data “A” outputs.
OUT[8:1]A
OUT[8:1]B
20, 22, 24, 26,
31, 33, 35, 37
LOGIC OUTPUTS. CMOS/TTL format
serial digital data “B” outputs.
29
VDD
VSS
POWER INPUT. 5 V or 3.3 V.
POWER INPUT. Ground.
28, 30
©2019 Device Engineering Inc.
Page 1 of 8
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FUNCTIONAL DESCRIPTION
The DEI1046 is a BiCMOS device which contains eight differential line receivers. Each receiver channel translates
incoming ARINC 429 data bus signals (tri-level RZ bipolar differential modulation) to a pair of TTL/CMOS logic
outputs. Each channel operates independently and meets the requirements of the ARINC 429 Digital Information
Transfer Standard. Refer to Figure 1 DEI1046 Block Diagram and Truth Table.
The device is designed to operate in a high noise environment. Inputs are accepted over a ±20 V common mode
voltage range and the receivers provide over 2 V of hysteresis. Circuit speed is optimized to reject high frequency
transients.
The DEI1046 device provides logic level TEST inputs for built in system test. They force the outputs of all eight
receivers to the specified ZERO, ONE or NULL state. The ARINC inputs are ignored when the device is in test mode.
The DEI1046 has a single test port which controls all 8 channels.
The ARINC input pins are designed with internal protection from damage due to lighting induced transients of DO-
160 Level 3 pin injection. The protection incorporates on-chip high value resistors to minimize IR heating and high-
voltage dielectric isolation to withstand the voltage transients.
Higher protection levels can be achieved with the addition of external TVS devices between the inputs and ground,
or alternately, TVS devices in combination with series current limiting resistors between the ARINC bus and the
IC/TVS node. The series resistors reduce the power requirement and size of the TVS. Resistor values up to 10 kΩ
are feasible.
The ARINC inputs withstand inadvertent short to 115 Vac aircraft power without sustaining damage.
Figure 1 DEI1046 Block Diagram and Truth Table
©2019 Device Engineering Inc.
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ELECTRICAL DESCRIPTION
Table 2: Absolute Maximum Rating
PARAMETER
Supply Voltage (with respect to VSS)
MIN
-0.3
-65
MAX
7.0
UNIT
V
Storage Temperature
+150
115
800
145
260
°C
Input Voltage, continuous (ARINC Inputs)
Power Dissipation @ 85 °C
Vac
mW
°C
Junction Temperature, Tjmax (limited by molding compound Tg)
Peak Body Temperature
°C
Lightning Protection (ARINC 429 Channel Inputs)
Waveform 3 (2)
Waveform 4, 5A (2) (3)
-720
-360
+720
+360
V
V
ESD JS-001-2017 HBM
1B
Class
Notes:
1. Stresses above these limits can cause permanent damage.
2. Per DO160, Sect 22 Level 3 pin injection. See Figures 4 - 6.
3. Inputs can be protected to withstand higher stress by adding series resistors and shunt TVS on inputs. Inputs
withstand 1500 V Waveform 5A when clipped ≤ 600 V.
Table 3: Recommended Operating Conditions
SYMBOL
VDD
CONDITIONS
PARAMETER
Supply Voltage
Logic Input Levels
+5 V ±10%
+3.3 V +10% -5%
TESTA/B
0 to VDD
Operating Temperature
-TES
-TMS
Ta
-55 to +85 °C
-55 to +125 °C
©2019 Device Engineering Inc.
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Table 4: Electrical Characteristics
Conditions: Temperature: -55 °C to +85 °C (-TES); -55 °C to +125 °C (-TMS)
VDD = +5 V ±10% and +3.3 V +10% -5%
PARAMETER
TEST CONDITION
ARINC INPUTS
SYMBOL
MIN
MAX
UNIT
VA – VB = Logic +1
VA – VB = Logic -1
OUTA = 1
OUTB = 1
V+1
V-1
6.5
13
V
V
-6.5
-13
OUTA = 0
OUTB = 0
VA – VB = Logic Null
VNULL
VHY
-2.5
2.0
-20
2.5
4.0
+20
V
V
V
Input Hysteresis
Input Common Mode
Voltage Range
Logic +1, Null, Logic -1
VCM
VDD open,
Shorted to VSS or +5 V
(1)
Input Resistance
INA to INB
RIN
280
140
kΩ
Input Resistance
INA or INB to VSS
VDD open,
Shorted to VSS or +5 V
RS
CIN
CS
kΩ
pF
pF
Input Capacitance
INA to INB
VDD open,
Shorted to VSS or +5 V (1)
10
10
Input Capacitance
INA or INB to VSS
VDD open,
Shorted to VSS or +5 V (1)
LOGIC INPUTS
Logic 0 Voltage
Logic 1 Voltage
Logic 0 Current
Logic 1 Current
VIL
VIH
IIL
0.8
V
V
2.0
2.4
VIL = 0.8
25
50
µA
µA
VIH = 2.0
IIH
LOGIC OUTPUTS
I
I
OH = -5mA (VDD = 5.0 V)
OH = -5mA (VDD = 3.3 V)
TTL Compatible
OUTPUT HIGH VOLTAGE
TTL
VOH
VOL
V
OUTPUT LOW VOLTAGE
TTL
IOL = 5 mA (VDD = 5.0 V)
0.4
.05
8.5
V
V
V
OUTPUT HIGH VOLTAGE
CMOS
IOH = 100 µA
CMOS Compatible
VDD
–.05
VOH
VOL
OUTPUT LOW VOLTAGE
CMOS
IOL = 100 µA
CMOS Compatible
SUPPLY CURRENT
Data Rate = 0 MHZ,
INA/B = open,
OUTA/B = open,
VDDCurrent
IDD
1.5
mA
VDD = 5.5 V or 3.63 V
Notes:
1. Guaranteed by design, not production tested.
2. Current flowing into device is positive. Current flowing out of device is negative. All
voltages are with respect to VSS unless otherwise noted.
©2019 Device Engineering Inc.
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Table 5: Switching Characteristics
MAX
VDD 3.3V
MAX
VDD 5V
PARAMETER
TEST CONDITION (1,2) SYMBOL
UNIT
ns
TESTA = TESTB = 0
CL = 50 pF
INA/B to OUTA/B Prop Delay
INA/B to OUTA/B Prop Delay
tLH
tHL
1000
900
900
TESTA = TESTB = 0
CL = 50 pF
1000
ns
OUTA/B rise time
OUTA/B fall time
10% to 90%, CL = 50 pF
10% to 90%, CL = 50 pF
tr
tf
50
50
25
25
ns
ns
TESTA/B to OUTA/B Prop
delay
CL = 50 pF
CL = 50 pF
tTOH
tTOL
100
100
60
60
ns
ns
TESTA/B to OUTA/B Prop
delay
Notes:
1. Sample tested.
2. Refer to Figures 2 – 3.
©2019 Device Engineering Inc.
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INA
TESTA OR B
1.5V
Vdif = 6.5V
Vdif = 2.5V
tTOH
tTOL
INB
tHL
tLH
OUTA OR B
1.5V
OUTA
OUTB
1.5V
1.5V
Figure 3 TEST Input to Logic Output Switching
Waveform
Figure 2 ARINC 429 Input to Logic Output Switching
Waveform
V
V/I
Peak
Largest
Peak
25% to 75%
of Largest Peak
T1 = 6.4 µs +-20%
T2 = 70 µs +-20%
50%
0
t
50%
0
t
T1
T2
Figure 4 DO160 Lightning Induced Transient Voltage
Waveform #4 Pin Injection
Figure 5 DO160 Lightning Induced Transient Voltage
Waveform #3 Pin Injection
Voc = 300 V, Isc = 60 A
Voc = 600 V, Isc = 24 A. Freq = 1 MHZ ±20%
V/I
5A: T1 = 40 us +-20%
Peak
T2 = 120 us +-20%
LIGHTNING TRANSIENT NOTES:
1. Voc = Peak Open Circuit Voltage available at
the calibration point.
2. Isc = Peak Short Circuit Current available at
the calibration point.
50%
3. Amplitude tolerances: +10%, -0%.
4. The ratio of Voc to Isc is the generator
source impedance to be used for generating
the waveforms.
0
t
T1
T2
Figure 6 DO160 Lightning Induced Transient Voltage
Waveform #5 Pin Injection
Voc = 300 V, Isc = 300 A
©2019 Device Engineering Inc.
Page 6 of 8
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ORDERING INFORMATION
Table 6: Ordering Information
TEMPERATURE
DEI PN
MARKING (1)
TEST INPUTS
PACKAGE
38L TSSOP G
38L TSSOP G
SCREENING
Standard
RANGE
DEI1046-TES
(e4)
DEI1046-TES-G
DEI1046-TMS-G
YES
YES
-55/+85 °C
DEI1046-TMS
(e4)
-55/+125 °C
Standard
Notes:
1. All packages marked with Lot Code and Date Code. (e4) after Date Code denotes Pb Free category.
Table 7: Screening Process
SCREENING
ELECTRICAL TEST:
STANDARD
ROOM TEMPERATURE
HIGH TEMPERATURE
LOW TEMPERATURE
100%
100% @ 85 °C or 125 °C
0.65% AQL @ -55 °C
©2019 Device Engineering Inc.
Page 7 of 8
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02/01/2019
PACKAGE DESCRIPTION
Table 8: Package Characteristics
CHARACTERISTIC
VALUE
38L
TSSOP G
REFERENCE
75 °C/W
15 °C/W
QJA
(4 layer PCB with Power Planes)
QJC
JEDEC MOISTURE
SENSITIVITY LEVEL (MSL)
MSL 2 / 260 °C
LEAD FINISH MATERIAL /
JEDEC Pb-free CODE
NiPdAu
e4
Pb-Free DESIGNATION
JEDEC REFERENCE
RoHS Compliant
MO-153-BD-1
Figure 7 38L TSSOP Mechanical Outline
DEI reserves the right to make changes to any products or specifications herein. DEI makes no warranty, representation, or
guarantee regarding suitability of its products for any particular purpose.
©2019 Device Engineering Inc.
Page 8 of 8
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