AQV210HL

AQV210HL TESTING GU (General Use) Type 1-Channel (Form A) Current Limit Function 6-Pin Type PhotoMOS RELAYS FEATURES 6.4±0.05 .252±.002 3.6±0.2 .142±.008 8.8±0.05 .346±.002 6.4±0.05 .252±.002 3.9±0.2 .154±.008 8.8±0.05 .346±.002 mm inch 1 6 2 5 3 4 1. Current Limit Function To control an over current from flowing, the current limit function has been realized. It keeps an output current at a constant value when the current reaches a specified current limit value. 2. Enhancing the capability of surge resistance between output terminals The current limit function controls the ON time surge current to enhance the capability of surge resistance between output terminals. 3. Reinforced insulation 5,000 V type More than 0.4 mm internal insulation distance between inputs and outputs. Conforms to EN41003, EN60950 (reinforced insulation). 4. Compact 6-pin DIP size The device comes in a compact (W)6.4 × (L)8.8 × (H) 3.9mm (W).252 × (L).346 × (H).154inch, 6-pin DIP size 5. Controls low-level analog signals PhotoMOS relays feature extremely low closed-circuit offset voltage to enable control of low-level analog signals without distortion. 6. High sensitivity, low ON resistance 7. Low-level off state leakage current TYPICAL APPLICATIONS • Telephone equipment • Modem TYPES Part No. Output rating* Type I/O isolation voltage Load voltage AC/DC type Reinforced 5,000 V 350 V Load current 130 mA Through hole terminal Tube packing style AQV210HL Packing quantity Surface-mount terminal AQV210HLA Tape and reel packing style Picked from the Picked from the 1/2/3-pin side 4/5/6-pin side AQV210HLAX AQV210HLAZ Tube Tape and reel 1 tube contains 50 pcs. 1 batch contains 500 pcs. 1,000 pcs. *Indicate the peak AC and DC values. Note: For space reasons, the package type indicator “X” and “Z” are omitted from the seal. RATING 1. Absolute maximum ratings (Ambient temperature: 25°C 77°F) Item LED forward current LED reverse voltage Input Peak forward current Power dissipation Load voltage (peak AC) Output Continuous load current Power dissipation Total power dissipation I/O isolatiom voltage Operating Temperature limits Storage Symbol IF VR IFP Pin VL IL Pout PT Viso Topr Tstg AQV210HL(A) 50 mA 3V 1A 75 mW 350 V 0.13 A 500 mW 550 mW 5,000 V AC –40°C to +85°C –40°F to +185°F –40°C to +100°C –40°F to +212°F Remarks f = 100 Hz, Duty factor = 0.1% Non-condensing at low temperatures 107 AQV210HL 2. Electrical characteristics (Ambient temperature: 25°C 77°F) Item Symbol Typical Maximum Minimum Typical Minimum Typical LED operate current LED turn off current Input LED dropout voltage AQV210HL(A) 1.6 mA 3.0 mA 0.4 mA 1.5 mA 1.14 (1.25 V at IF = 50mA) 1.5 V IFon IFoff VF Ron Off state leakage current Current limit Turn on time* Transfer characteristics Turn off time* I/O capacitance Maximum ILeak 1µA Typical Typical Maximum Typical Maximum Typical Maximum — 180 mA 0.8 ms 2.0 ms 0.05 ms 1.0 ms 0.8 pF 1.5 pF Initial I/O isolation Minimum resistance IL = Max. IF = 5 mA IF = 5 mA IL = Max. Within 1 s on time IF = 0 VL = Max. IF = 5 mA 25Ω Maximum Output IL = Max. 20Ω Typical On resistance Condition Ton Toff Ciso IF = 5 mA IL = Max. IF = 5 mA IL = Max. f = 1 MHz VB = 0 1,000 MΩ Riso 500 V DC Note: Recommendable LED forward current IF= 5 to 10 mA. For type of connection, see Page 31. *Turn on/Turn off time Input 90% Output 10% Ton Toff REFERENCE DATA 1. Load current vs. ambient temperature characteristics 2. On resistance vs. ambient temperature characteristics 3. Turn on time vs. ambient temperature characteristics Allowable ambient temperature: –40°C to +85°C –40°F to +185°F Measured portion: between terminals 4 and 6; LED current: 5 mA; Load voltage: Max. (DC) Continuous load current: Max.(DC) LED current: 5 mA; Load voltage: Max.(DC); Continuous load current: Max.(DC) 150 100 50 2.5 40 2 Turn on time, ms On resistance, Ω Load current, mA 200 30 20 1.5 1 50 10 0 –40 –20 0 20 40 60 80 85 100 Ambient temperature, °C 108 0 0.5 –40 –20 0 20 40 60 80 85 Ambient temperature, °C 0 –40 –20 0 20 40 60 80 85 Ambient temperature, °C AQV210HL 4. Turn off time vs. ambient temperature characteristics 5. LED operate current vs. ambient temperature characteristics 6. LED turn off current vs. ambient temperature characteristics LED current: 5 mA; Load voltage: Max.(DC); Continuous load current: Max.(DC) Load voltage: Max.(DC); Continuous load current: Max.(DC) Load voltage: Max.(DC); Continuous load current: Max.(DC) 5 0.2 0.15 0.1 0.05 0 5 LED turn off current, mA LED operate current, mA Turn off time, ms 0.25 4 3 2 2 –40 –20 0 20 40 60 0 80 85 1 –40 –20 8. Voltage vs. current characteristics of output at MOS portion LED current: 5 to 50 mA Measured portion: between terminals 4 and 6; Ambient temperature: 25°C 77°F 140 120 100 80 60 40 20 –5 –4 –3 –2 –1 1.4 1.3 1.2 1 2 3 4 5 –20 Voltage, V –40 –60 –80 –100 –120 –140 50mA 30mA 20mA 10mA 5mA 1.1 1.0 –40 –20 0 20 40 60 80 85 Ambient temperature, °C –40 –20 0 20 40 60 80 85 Ambient temperature, °C 9. Off state leakage current Measured portion: between terminals 4 and 6; Ambient temperature: 25°C 77°F Off state leakage current, A Current, mA 1.5 0 0 20 40 60 80 85 Ambient temperature, °C 7. LED dropout voltage vs. ambient temperature characteristics LED dropout voltage, V 3 1 Ambient temperature, °C 0 4 10–3 10–6 10–9 10–12 0 20 40 60 80 100 Load voltage, V 10. LED forward current vs. turn on time characteristics 11. LED forward current vs. turn off time characteristics 12. Applied voltage vs. output capacitance characteristics Measured portion: between terminals 4 and 6; Load voltage: Max.(DC); Continuous load current: Max.(DC); Ambient temperature: 25°C 77°F Measured portion: between terminals 4 and 6; Load voltage: Max.(DC); Continuous load current: Max.(DC); Ambient temperature: 25°C 77°F Measured portion: between terminals 4 and 6; Frequency: 1 MHz; Ambient temperature: 25°C 77°F 3 50 Output capacitance, pF 0.2 Turn off time, ms Turn on time, ms 2.5 2 1.5 0.15 0.1 1 0.05 0 0 10 20 30 40 50 60 LED forward current, mA 0 30 20 10 0.5 0 40 10 20 30 40 50 0 60 0 10 20 LED forward current, mA 30 40 50 Applied voltage, V What is current limit 5/7/2001 stream of the PhotoMOS relay against over-current. But, if the current-limiting feature is used longer than the specified time, the PhotoMOS relay can be destroyed. Therefore, set the output loss to the max. rate or less. • Comparison of output voltage and output current characteristics V-I Characteristics Output current When a load current reaches the specified output control current, a current limit function works against the load current to keep the current a constant value. The current limit circuit built into the PhotoMOS relay thus controls the instantaneous load current to effectively ensure circuit safety. This safety feature protects circuits down- Output voltage All Rights Reserved, © Copyright Matsushita Electric Works, 109 Ltd.