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| Data Sheet No. PD10052-A Series PVD13N Microelectronic Power IC HEXFET(R) Power MOSFET Photovoltaic Relay Single-Pole, Normally-Open 0-100V DC, 550mA General Description The PVD13 Series DC Relay (PVD) is a single-pole, normally open, solid-state replacement for electromechanical relays used for general purpose switching of analog signals. It 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 PVD13 Series overcomes the limitations of both conventional electromechanical and reed relays by offering the solid state advantages of long life, fast operating speed, low pick up power, bounce-free operation, low thermal offset voltages and miniature package. These advantages allow product improvement and design innovations in many applications such as process control, multiplexing, automatic test equipment and data acquisition. The PVD13 can switch analog signals from thermocouple level to 100 Volts peak DC. Signal frequencies into the RF range are easily controlled and switching rates up to 450Hz are achievable. The extremely small thermally generated offset voltages allow increased measurement accuracies. These relays are packaged in 8-pin, molded DIP packages and available with either through-hole or surface-mount ("gull-wing") leads, in plastic shipping tubes. Features Bounce-Free Operation 1010 Off-State Resistance 1,000 V/sec dv/dt 5 mA Input Sensitivity 4,000 VRMS I/O Isolation Solid-State Reliability UL Recognition pending ESD Tolerance: 4000V Human Body Model 500V Machine Model Applications Process Control Data Acquisition Test Equipment Multiplexing and Scanning Part Identification PVD1352N PVD1354N PVD1352NS PVD1354NS through-hole surface-mount (gull-wing) (HEXFET is the registered trademark for International Rectifier Power MOSFETs) Series PVD13N Electrical Specifications (-40C TA +85C unless otherwise specified) INPUT CHARACTERISTICS Minimum Control Current (see figures 1 and 2) For 500mA Continuous Load Current For 550mA Continuous Load Current For 350mA Continuous Load Current Maximum Control Current for Off-State Resistance at 25C Control Current Range (Caution: current limit input LED. See figure 6) Maximum Reverse Voltage PVD1352N 2 5 5 10 PVD1354N Units DC mA@25C mA@40C mA@85C A(DC) mA(DC) V(DC) 2.0 to 25 7.0 OUTPUT CHARACTERISTICS Operating Voltage Range Maxiumum Load Current 40C I LED 5mA Response Time @25C (see figures 7 and 8) Max. T(on) @ 12mA Control, 50 mA Load, 100 VDC Max. T(off) @ 12mA Control, 50 mA Load, 100 VDC Max. On-state Resistance 25C (Pulsed) (fig. 4) 200 mA Load, 5mA Control Min. Off-state Resistance 25C @ 80 VDC (see figure 5) Max. Thermal Offset Voltage @ 5.0mA Control Min. Off-State dv/dt Typical Output Capacitance PVD1352N 550 PVD1354N Units V(PEAK) mA(DC) s s volts V/s pF @ 50VDC 0 to + 100 150 70 1.5 10 8 10 0.2 1000 20 10 GENERAL CHARACTERISTICS Dielectric Strength: Input-Output Insulation Resistance: Input-Output @ 90VDC Maximum Capacitance: Input-Output Max. Pin Soldering Temperature (1.6mm below seating plane, 10 seconds max.) Ambient Temperature Range: Operating Storage (PVD1352N and PVD1354N) 4000 10 @ 25C - 50% RH 1.0 +260 -40 to +85 -40 to +100 12 Units V RMS pF C 2 www.irf.com Series PVD13N 800 Max. Load Current (mA) 700 500 400 300 200 I LE D > 5 m A I LED= 2m A 100 0 0 20 40 60 80 100 Load Current (mA) 600 Ambient Temperature (C) Figure 1. Current Derating Curves ILED (mA) Figure 2. Typical Control Current Requirements 85C I LE D = 5m A , F orc e d A ir 100 0 0.0 0.5 1.0 VDD (Volts) Figure 3.Typical On Characteristics 1.5 2.0 Rd(on) (Normalized to 25C) 1000 900 800 700 600 500 400 300 200 P ulsed, 25C Load Current (mA) 25C 40C 60C 5 mA Control lD = 100 mA Ambient Temperature (C) Figure 4. Typical Normalized On-Resistance www.irf.com 3 Series PVD13N Input Current (mA) IDOff/IDOff 25C Ambient Temperature (C) Figure 5. Typical Normalized Off-State Leakage LED Forward Voltage Drop (Volts DC) Figure 6. Input Characteristics (Current Controlled) 1000 Delay Time (S) T dly 100 Ton Toff 10 0 5 10 15 20 I LED (mA) Figure 7.Typical Delay Times Figure 8. Delay Time Definitions 4 www.irf.com Series PVD13N Normalized Control Threshold Current 200 180 (p ) p yp 160 140 120 100 80 60 40 20 0 0 10 20 30 40 50 Normalized Transfer Ratio Ambient Temperature C Figure 9. Typical Control Threshold and Transfer Ratio Typical Capacitance pF) VDS Drain to Source Voltage Figure 10. Typical Output Capacitance Wiring Diagram www.irf.com 5 Series PVD13N Case Outlines 01-2013 00 (MS-001AB) 01-2019 00 11/16/2000 6 www.irf.com |
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