OBSOLETE Data Sheet No. PD136 rev J PVO42P Microelectronic Power IC HEXFET Power MOSFET Single Pole, Normally Open + Ring Detector -4V, 12mA AC/DC General Description The PVO42P Photovoltaic is a dual-pole, normally open solid-state relay plus ring detector. By integrating these two functions in one package it can replace two discrete components, i.e., a relay and an AC-input opto-coupler. The relay portion of PVO42P utilizes International Rectifier s HEXFET power MOSFET as the output switch, driven by an integrated circuit photovoltaic generator of novel construction. The output switch is controlled by radiation from a GaAlAs light emitting diode (LED) which is optically isolated from the photovoltaic generator. The ring detector portion of PVO42P has two LEDs in inverse parallel connection as the input sensing element and a silicon NPN photo-transistor as the output switch. PVO42P is ideally suited for PCMCIA fax/modem cards. Its extremely low profile allows it to be used in Type II cards whose outer shells are only 5mm thick. PVO42P s are packaged in an 8-pin, molded Thin-Pak DIP package with gull-wing surface mount terminals. It is available in plastic shipping tubes or on tape-and-reel. Please refer to Part Identification (opposite) for details. Applications! On/Off Hook switch! Dial pulsing! Ringer injection! Ring detection! Loop current detection Features! HEXFET Power MOSFET output! Bounce-free operation! 3,75 V RMS I/O Isolation! Linear AC/DC operation! Solid-State reliability! UL recognized and BABT certified PVO42P Thin-Pak Part Identification PVO42P surface-mount, plastic shipping tube PVO42P-T surface-mount, tape and reel (HEXFET is the registered trademark for International Rectifier Power MOSFETs) www.irf.com 1
PVO42P NOT recommended for new designs Electrical Specifications (-4 C T A +85 C unless otherwise specified) RELAY INPUT CHARACTERISTICS Limits Units Minimum Control Current (see figure 1) 3. ma Maximum Control Current for Off-State Resistance @T A =+25 C.4 ma Control Current Range (Caution: current limit input LED, see figure 6) 3. to 25 ma Maximum Reverse Voltage 6. V OUTPUT CHARACTERISTICS Limits Units Operating Voltage Range to ±4 V (DC or AC peak) Maximum Load Current @ T A =+4 C 12 ma 5mA Control (see figure 1) Maximum On-State Resistance @T A =+25 C 35 Ω For 5mA pulsed load, 5mA Control (see figure 4) Maximum Off-State Leakage @T A =+25 C, ±4V (see figure 5) 1. µa Maximum Turn-On Time @T A =+25 C (see figure 7) 2. ms For 5mA, 1 V DC Load, 5mA Control Maximum Turn-Off Time @T A =+25 C (see figure 7).5 ms For 5mA, 1 V DC Load, 5mA Control Maximum Output Capacitance @ 5V DC 12 pf DETECTOR INPUT CHARACTERISTICS Limits Units Minimum Control Current @ I C = 2mA, V CE =.5V 6. ma Maximum Control Current for Off-State Leakage I C =1µA, V CE =5V @T A =+25 C 5 µa Control Current Range (Caution: current limit input LED, see figure 6) 6. to 25 ma OUTPUT CHARACTERISTICS Limits Units Minimum Collector-Emitter Breakdown Voltage @ I C = 1µA 2 V DC Minimum Current Transfer Ratio @ I LED = 6mA, V CE = 5V (see figure 9) 33 % Maximum Saturation Voltage @ I LED = 16mA, I C = 2mA.5 V Maximum Leakage Current @ I LED =ma, V CE = 5V 5 na Maximum Power Dissipation @T A =+25 C (derate linearly 2.mW/ C) 15 mw COMBINED GENERAL CHARACTERISTICS Limits Units Minimum Dielectric Strength, Input-Output 375 V RMS Minimum Dielectric Strength, -Detector 1 V DC Minimum Insulation Resistance, Input-Output 1 12 Ω @T A =+25 C, 5%RH, 1V DC Maximum Capacitance, Input-Output 3. pf Maximum Pin Soldering Temperature (1 seconds maximum) +26 Ambient Temperature Range: Operating -4 to +85 C Storage -4 to +1 International Rectifier does not recommend the use of this product in aerospace, avionics, military or life support applications. Users of this International Rectifier product in such applications assume all risks of such use and indemnify International Rectifier against all damages resulting from such use. 2 www.irf.com
NOT recommended for new designs PVO42P Connection Diagram 1 8 2 7 3 6 4 5 125 I LED = 5 ma 2 Max. Load Current (ma) 1 75 5 25 3 ma Typical Capacitance (pf) 15 1 5 2 4 6 8 1 Ambient Temperature (deg. C) Figure 1. Current Derating Curve 1 2 3 4 5 Vdd, Drain to Drain Voltage (V) Figure 2. Typical Output Capacitance www.irf.com 3
PVO42P NOT recommended for new designs Load Current (ma) -5. -4. -3. -2. -1. 2 15 1 5-5 -1 1. -15-2 2. 3. 4. 5. 5 ma Control @25 C, pulsed s Output Voltage Drop (Vdd) Rd-on (Normalized to 25 deg. C) 2.5 2. 1.5 1..5 5 ma Control I D = 1 ma -5-25 25 5 75 1 125 Ambient Temperature (deg. C) Figure 3. Linearity Characteristics Figure 4. Typical Normalized On-Resistance ID-OFF / ID-OFF 25 deg. C 1 3 1 3. 1..3 Input Current (ma) 2 16 12 8 4 CAUTION: Provide current limiting so that 25mA max. steady-state control current rating is not exceeded. and Detector Min. device and +85 C limit TYPICAL Max. device and -4 C limit.1-35 -15 5 25 45 65 85 15 Ambient Temperature (deg. C) Figure 5. Typical Normalized Off-State Leakage.5 1. 1.5 2. LED Forward Voltage Drop (Volts DC) Figure 6. Input Characteristics (Current Controlled) 4 www.irf.com
NOT recommended for new designs PVO42P 2 LED Current (ma) 1 5 t off t dly t on 3 2 5 1 2 5 1 2 Delay Time (microseconds) I LED 9% ID 1% tdly ton t off Figure 7. Typical Delay Times Figure 8. Delay Time Definitions 5 Detector I LED = 1 ma Collector Current (ma) 4 3 5 ma 2 1 2 ma 1 ma 2 4 6 8 1 Collector-Emitter Voltage (V) Figure 9.Typical Transfer Characteristics www.irf.com 5
PVO42P NOT recommended for new designs Case Outline 1-211 IR WORLD HEADQUARTERS: 233 Kansas St., El Segundo, California 9245 Tel: (31) 252-715 Data and specifications subject to change without notice. 1/24/27 6 www.irf.com