Optoisolators - Logic Output

Part Number	Description / PDF	Quantity
HCPL-523K#200 Broadcom	OPTOISO 1.5KV 2CH PUSH PULL 8DIP	0
ACPL-772L-500E Broadcom	OPTOISO 3.75KV PUSH PULL 8DIP GW	0
HCPL-0201-500E Broadcom	OPTOISO 3.75KV PUSH PULL 8SO	13668
ACFL-6211U-060E Broadcom	OPTOISO 5KV 2CH PSH PULL SO12	0
HCPL-7710-500E Broadcom	OPTOISO 3.75KV PUSH PULL 8DIP GW	1891
HCPL-2202-300E Broadcom	OPTOISO 3.75KV PUSH PULL 8DIP GW	0
5962-8876901PC Broadcom	OPTOISO 1.5KV 2CH PUSH PULL 8DIP	0
HCPL-263L-060E Broadcom	OPTOISO 3.75KV 2CH OPEN COL 8DIP	0
ACPL-M61T-000E Broadcom	OPTOISO 4KV OPN COLLECTOR 5SO	235
8102805PA Broadcom	OPTOISO 2.5KV 2CH OPEN COLL 8DIP	0
6N137-060E Broadcom	OPTOISO 3.75KV 1CH OPN COLL 8DIP	0
ACPL-071L-500E Broadcom	OPTOISO 3.75KV PUSH PULL 8SO	871
ACPL-W481-060E Broadcom	OPTOISO 5KV PUSH PULL 6SO	0
5962-8876801PA Broadcom	OPTOISO 1.5KV TRI-STATE 8DIP	731
ACPL-K64L-060E Broadcom	OPTOISO 5KV 2CH PUSH PULL 8SO	34
ACSL-6400-06TE Broadcom	OPTOISO 2.5KV 4CH OPEN COLL 16SO	0
ACPL-W70L-500E Broadcom	OPTOISO 5KV PUSH PULL 6SSO	1942
HCPL-0611-000E Broadcom	OPTOISO 3.75KV OPN COLLECTOR 8SO	1796
HCPL-2231-300E Broadcom	OPTOISO 3.75KV PUSH PULL 8DIP GW	399
ACPL-M72T-500E Broadcom	OPTOISO 4KV PUSH PULL 5SOIC	282

Optoisolators - Logic Output

1. Overview

Optoisolators (or optical isolators) with logic output are electronic components that transfer electrical signals between circuits while maintaining electrical isolation. They utilize light to transmit signals across an isolation barrier, preventing direct electrical contact. These devices are critical in modern systems for protecting sensitive electronics from high voltages, eliminating ground loops, and ensuring noise immunity in harsh environments.

2. Main Types and Functional Classification

Type	Functional Characteristics	Application Examples
Single-Channel Logic Output	Basic isolation with one input/output pair	General-purpose signal isolation in consumer electronics
Multi-Channel	Multiple isolated channels in a single package	Industrial automation systems requiring parallel signal routing
High-Speed Logic Output	Transmission rates >10 Mbps with fast rise/fall times	Communication interfaces (RS-485, CAN bus)
Low-Power Consumption	Operating current <1 mA for energy-efficient designs	Battery-powered IoT devices

3. Structure and Composition

A typical logic output optoisolator consists of:

Light-Emitting Diode (LED): Converts electrical input to optical signal
Photoelectric Sensor: Integrated photodiode or phototransistor with logic output driver
Isolation Barrier: Dielectric material (e.g., silicon dioxide) with high dielectric strength
Packaging: Standard DIP/SMD plastic housing with creepage distance 5mm

4. Key Technical Specifications

Parameter	Description and Importance
Isolation Voltage (VIORM)	Up to 5000 V RMS - Determines safety rating and insulation capability
Propagation Delay	10-100 ns range - Critical for timing-sensitive applications
Current Transfer Ratio (CTR)	50-600% - Affects signal strength and reliability
Operating Temperature	-40 C to +125 C - Ensures stability in industrial environments

5. Application Fields

Key industries include:

Industrial automation (PLCs, motor drives)
Telecommunications (optical transceivers, base stations)
Medical equipment (patient monitoring devices)
Automotive electronics (battery management systems)

Example: Used in solar inverters to isolate control circuits from high-voltage DC buses while maintaining signal integrity.

6. Leading Manufacturers and Products

Manufacturer	Representative Product	Key Features
Avago Technologies	HCPL-2631	50 MBd speed, 3750 V isolation, industrial temperature range
Vishay Semiconductors	VO617A	High CTR (800%), DIP-4 package, cost-effective
STMicroelectronics	STO602	Double insulation, AEC-Q100 automotive qualification

7. Selection Guidelines

Key considerations:

Determine required isolation level (functional vs. safety isolation)
Match CTR with driving circuit capabilities
Verify temperature ratings for specific environments
Check packaging compatibility with PCB layout

Case Study: For factory automation systems, select models with >5000 V isolation and ESD immunity to withstand industrial electrical noise.

8. Industry Trends

Future developments include:

Integration with digital interfaces (I2C, SPI)
Adoption of wide-bandgap materials (GaN/SiC) for higher voltage handling
Miniaturization through 3D packaging technology
Growing demand in EV charging infrastructure (ISO 26262 compliance)