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Dual Mark Device Part Number and DSCC Drawing Number Manufactured and Tested MIL-PRF-38534 Certified Production Line QML-38534, Class H and K Five Sealed Package Configurations Performance Guaranteed Over -55°C to + 125 °C Low Input Current Requirements : 0.5mA high current transfer ratio: 1500% typ@if=0.5mA low output saturation voltage: typ. 0.11 V1500 V DC withstand test voltage high radiation immunity 6N138 /9, HCPL-2730 /31 function compatible Sexual Reliability Data

application

military and space

High reliability system

Phone Ring Detection

Microprocessor System Interface

Transportation, Medical and Life-Critical Systems

Isolated Input Line Receiver

EIA RS-232-C Line Receiver

Voltage level shift

Isolated Input Line Receiver

Isolated Output Line Driver Logic Ground Isolation

harsh industrial environment

Current Loop Receiver Systems Test Equipment Isolation Process Control Input/Output Isolation

illustrate

The units are single, dual and quad channel, hermetically sealed optocouplers. Products are capable of operation and storage over the full military temperature range and are purchased as standard products or with full MIL-PRF-38534 ratings

H or K test, or according to appropriate DSCC drawing. All devices are on MIL-PRF-38534 certified circuits and are included in the DSCC Qualified Manufacturers List-38534 for Hybrid Microcircuits. Each channel contains a GAASSP LED optically coupled to an integrated circuit high gain photon detector. This high-gain output stage features an open-collector output that provides low saturation voltage and is higher than can be achieved using conventional optocouplers. This shallow buried, small crossover IC process provides optocouplers that provide better radiation than conventional immune phototransistors. The supply voltage can be as low as 2.0V without adversely affecting parametric performance.

These devices have 300% input current with a minimum current of only 0.5mA for low input current applications such as MOS, CMOS, low power logic interfaces or line acceptors. Systems with high voltage CMOS logic are specified by ICCH and look at 18 volts. If there are special requirements, the following equipment can be selected: 600% output leakage current level of 100 microamps when the CTR is not more than 0.5 mA and below. Package styles for these parts are 8- and 16-pin dip through hole (case outlines P and E, respectively), 16-pin dip flatpack (case outline F), and lead-free ceramic chip carrier (case outline 2). Various lead bending and plating options are available when purchasing equipment. See selection guide for details in the table. Standard Military Drawing (SMD) parts are available for every package and leadership style. Because the same electronic mold is used (emitter and detector) for each channel of each device listed in this data sheet, the absolute maximum ratings, recommended operating conditions, electrical specifications and performance numbers shown on all parts are similar Unless otherwise indicated. Also the same package assembly process for all materials and equipment. These similarities demonstrate the reliability and certain limited radiation test results associated with molds using public databases.

Note: All dip and flat pack devices have common VCC and ground. The LCCC (Lead-Free Ceramic Chip Carrier) package has isolated channels with separate VCC and ground connections.

Absolute Maximum Ratings

Storage temperature range, TS-65°C to +150°C

Operating temperature TA-55°C to +125°C

Case temperature TC+170 degrees Celsius

Junction temperature TJ+175 degrees Celsius

Lead solder temperature 260°C for 10 seconds

Output current, IO (each channel) 40mA

Output voltage, VO (per channel). -0.5 to 20 Volts[1]

Supply voltage, VCC - 0.5 to 20 volts[1]

Output power consumption (per channel) 50 mW[2]

Peak input current (per channel, <1 ms duration) ...... 20 mA

Average input current if (per channel) 10mA[3]

Reverse input voltage, VR (each channel) 5V

Package power consumption, PD (per channel) 200 mW

Electrostatic Discharge Classification (MIL-STD-883, Method 3015) HCPL-5700/01/0K and 6730/31/3K (°C), Class 2 6N140A, 6N140A/883B, HCPL-177K,

HCPL-6750/51/5K and HCPL-5730/31/3K (dots), level 3

Electrical Characteristics, TA=-55°C to +125°C, unless otherwise specified

For JEDEC registered parts.

All typical values are VCC=5 V, TA=25°C.

notes:

1. The ground pin should be the most negative voltage on the detector side. Keeping VCC as low as possible, but higher than 2.0V, will provide the lowest overall voltage overheating.

2. The output power is a single-channel device of the collector output power plus the total power supply. For dual identity channel devices, the output power is the collector output power plus half the total power. Four-wheeled carriage channel equipment, the output power is the collector output power plus 1, accounting for one quarter of the total power supply. Derating at 1.66 MW/°C above 110°C.

3. Derating at 0.33 mA/°C above 110°C.

4. Each channel.

5. Current transfer ratio is defined as output ratio collector current, IO, forward LED input current, if, multiplied by 100%.

6.IOHX is the leakage current generated from one channel to another. Test if the channel is below 2µA. For all other channels, if=10mA.

7. All devices are considered two terminal devices; all output leads or terminals are shorted together at all input leads or terminals.

8. Measure all output shorts between each input pair by shorting the connections of that channel together.

9. Measure the pairs of each multi-channel device shorted together between adjacent inputs.

10.CML is the common mode voltage can be the output voltage to keep the logic low level (VO<0.8v). CMH is the common mode voltage that can keep the output voltage at a logic high state (VO>2.0V).

11. Where dV/dt may exceed 50,000 V/µs (eg discharge) series resistors, RCC, should be included to protect highly destructive detector IC surge currents. recommended

Value is:

12. This is a transient withstand test, not a working condition.

13. Standard parts subject to 100% testing at 25°C (subgroups 1 and 9). Surface mount 883B parts undergo 100% testing at 25125 and -55°C (Group 1 and 9, 2 and 10, 3 and 11, respectively).

14. Initial characterization of parameters tested as part of the device and subsequent design and process changes. All batches for which the parameters of the guarantee limit are not expressly specified are tested.

15. HCPL-6730, HCPL-6731 and HCPL-673K dual channel parts as two independent single channel units. Use a single channel parameter limit.

16. 6N140A, 6N140A do not require /883B, HCPL-177K, HCPL-6750/51/5K, 8302401 and 5962-9800201 types.

17. Required for 6N140A, 6N140A/883B, HCPL-177K, HCPL-6750/51/5K, Models 8302401 and 5962-9800201.

MIL-PRF-38534 Class H, Class K, DSCC SMD Test Procedure Agilent's Hi-Rel optocouplers are compliant with MIL-PRF-38534 Class H and Class K. Class H Class K equipment is also in compliance with DSCC drawings 830245962-897855962-89810 and 5962-98002. Testing includes 100% screening and quality consistency checks per MIL-PRF-38534.

All channels are tested simultaneously.