HF (High Function) Type [1-Channel (Form A) Type] # Technical Documentation: AQV202A PhotoMOS Relay
## 1. Application Scenarios
### 1.1 Typical Use Cases
The AQV202A is a PhotoMOS solid-state relay (SSR) that provides electrical isolation between control and load circuits using an infrared LED and photodetector array. Typical applications include:
- Low-voltage signal switching in measurement and test equipment
- Interface bridging between microcontrollers (3.3V/5V logic) and higher-voltage AC/DC loads
- Noise-sensitive analog switching in audio and instrumentation circuits
- Battery-powered systems requiring minimal standby current
### 1.2 Industry Applications
#### 1.2.1 Industrial Automation
- PLC output modules for switching sensors and small actuators
- Safety interlock circuits where galvanic isolation is critical
- Factory communication equipment (RS-232/485 interface isolation)
#### 1.2.2 Medical Equipment
- Patient monitoring devices requiring high isolation (3750Vrms)
- Portable medical instruments benefiting from low power consumption
- Laboratory analyzers switching precision measurement signals
#### 1.2.3 Consumer Electronics
- Smart home controllers for appliance switching
- Audio equipment signal routing and muting circuits
- Power management in computing and networking equipment
#### 1.2.4 Telecommunications
- Line interface cards for signal conditioning
- Test and measurement equipment signal routing
- Base station control circuits
### 1.3 Practical Advantages and Limitations
#### Advantages:
- High isolation voltage : 3750Vrms provides excellent noise immunity
- Long operational life : No mechanical contacts to wear out
- Fast switching : Typical 0.5ms turn-on/1.0ms turn-off times
- Low power consumption : LED drive current typically 5mA
- No contact bounce : Clean switching transitions
- Compact package : SOP4 surface-mount package saves board space
#### Limitations:
- Limited current capacity : 120mA maximum continuous load current
- On-resistance : 35Ω typical causes voltage drop and power dissipation
- Temperature sensitivity : Performance degrades above 85°C
- No overload protection : Requires external current limiting
- Cost premium : Higher per-unit cost than electromechanical relays for similar ratings
## 2. Design Considerations
### 2.1 Common Design Pitfalls and Solutions
#### Pitfall 1: Inadequate Heat Dissipation
Problem : The AQV202A's 35Ω on-resistance generates heat (P = I² × R). At maximum current (120mA), this produces approximately 0.5W of heat.
Solution :
- Include adequate copper area on PCB (minimum 100mm²)
- Consider thermal vias to inner layers or ground plane
- Derate current at elevated ambient temperatures (see derating curve in datasheet)
#### Pitfall 2: LED Drive Circuit Issues
Problem : Insufficient LED current causes unreliable switching; excessive current reduces LED lifespan.
Solution :
- Implement constant current drive (typically 5-10mA)
- Include current-limiting resistor: R = (Vcc - Vf) / I_LED
- Example: For 5V supply and 1.2V forward voltage at 5mA: R = (5-1.2)/0.005 = 760Ω (use 750Ω standard value)
- Add reverse protection diode if driving from inductive sources
#### Pitfall 3: Voltage Transient Damage
Problem : Inductive load switching generates voltage spikes exceeding the 400V peak voltage rating.
Solution :
- Add snubber circuit across load contacts (RC network)
