TLP719(TP,F)

TLP719 TOSHIBA PHOTOCOUPLER GaAℓAs IRED + PHOTO−IC TLP719 Unit: mm Digital logic ground isolation Line receivers Microprocessor system interfaces Switching power supply feedback control Industrial invertors 4.58±0.25 • Open collector • Package type • • • Isolation voltage : 5000 Vrms (min) Common mode transient immunity : ±10 kV/μs (min) @VCM = 400 Vp-p Switching speed : tpHL/ tpLH = 0.8 μs (max) @ IF = 16 mA, VCC = 5 V, RL = 1.9 kΩ, Ta = 25 °C • TTL compatible • Construction mechanical rating +0.25 4.0 −0.20 7.62±0.25 −0.05 1 2 3 0.25± +0.10 The TOSHIBA TLP719 consists of a GaAℓAs high-output light-emitting diode and a high-speed detector. This unit is a 6-lead SDIP. The TLP719 is 50% smaller than the 8-pin DIP and meets the reinforced insulation class requirements of international safety standards. Therefore the mounting area can be reduced in equipment requiring safety standard certification. The TLP719 has a Faraday shield integrated on the photodetector chip to provide an effective common mode noise transient immunity. Therefore this product is suitable for application in noisy environmental conditions. 3.65 +0.15 −0.25 6.8±0.25 6 5 4 1.27±0.2 1.25±0.25 0.4±0.1 9.7±0.3 11-5J1 : SDIP6 Creepage Distance Clearance Insulation Thickness TOSHIBA 11-5J1 Weight: 0.26 g (typ.) PIN CONFIGURATION (Top View) 7.62-mm pitch standard type 10.16-mm pitch TLPXXXF type 7.0 mm (min) 7.0 mm (min) 0.4 mm (min) 8.0 mm (min) 8.0 mm (min) 0.4 mm (min) 1 6 2 5 1 : ANODE 2 : N.C. 3 : CATHODE 4 : EMITTER (GND) 5 : COLLECTOR (OUTPUT) 3 • UL recognized : UL1577, File No. E67349 • cUL approved :CSA Component Acceptance Service • Option (D4) SHIELD 4 6 : VCC No. 5A, File No.E67349 VDE approved: DIN EN60747-5-5 ,EN60065,EN60950-1 (Note1) EN62368-1(Pending) (Note1) Note 1: When a VDE approved type is needed, SCHEMATIC please designate the “Option(D4)” IF ICC 1 IO VF 6 5 3 SHIELD 4 VCC VO GND A 0.1-μF bypass capacitor must be connected between pins 4 and 6. Start of commercial production 2007-09 1 2017-09-26 TLP719 Absolute Maximum Ratings (Ta = 25 °C) Characteristic Forward current Forward current derating (Ta ≥ 70 °C) Symbol Rating Unit IF 25 mA IF/ Ta -0.45 mA / °C (Note 1) IFP 50 mA Peak transient forward current (Note 2) IFPT 1 A VR 5 V PD 45 mW Junction temperature Tj 125 °C Output current IO 8 mA Peak output current IOP 16 mA Output voltage VO −0.5 to 20 V Supply voltage VCC −0.5 to 30 V Output power dissipation PO 100 mW Po / Ta －1.8 mW / °C Tj 125 °C Operating temperature range Topr −55 to 100 °C Storage temperature range Tstg −55 to 125 °C Lead soldering temperature (10 s) Tsol 260 °C BVS 5000 Vrms LED Pulse forward current Reverse voltage Detector Diode power dissipation (Note 3) Output power dissipation derating (Ta ≥ 70 °C) Junction Temperature Isolation voltage (AC, 60 s, R.H.≤ 60 %) (Note 4) Note: Using continuously under heavy loads (e.g. the application of high temperature/current/voltage and the significant change in temperature, etc.) may cause this product to decrease in the reliability significantly even if the operating conditions (i.e. operating temperature/current/voltage, etc.) are within the absolute maximum ratings. Please design the appropriate reliability upon reviewing the Toshiba Semiconductor Reliability Handbook (“Handling Precautions”/“Derating Concept and Methods”) and individual reliability data (i.e. reliability test report and estimated failure rate, etc). Note : A ceramic capacitor (0.1 μF) should be connected from pin 6 to pin 4 to stabilize the operation of the high-gain linear amplifier. Failure to provide the bypassing may impair the switching property. The total lead length between capacitor and coupler should not exceed 1 cm. Note 1: 50% duty cycle, 1 ms pulse width. Derate 0.9 mA / °C above 70 °C. Note 2: Pulse width ≤ 1 μs, 300 pps. Note 3: Derate 0.8 mW / °C above 70 °C. Note 4: Device considered a two-terminal device: pins 1, 2 and 3 paired with pins 4, 5 and 6 respectively. 2 2017-09-26 TLP719 Electrical Characteristics (Ta = 25 °C) Characteristic LED Forward voltage Forward voltage Temperature coefficient Symbol Min Typ. Max Unit VF IF = 16 mA ― 1.65 1.85 V ΔVF / ΔTa IF = 16 mA ― −2 ― mV / °C Reverse current IR VR = 5 V ― ― 10 μA Capacitance between terminals CT VF = 0 V, f = 1 MHz ― 45 ― pF IF = 0 mA, VCC = VO = 5.5 V ― 3 500 nA IF = 0 mA, VCC = 30 V ― ― 5 ― ― 50 IOH (1) HIGH-level output current Detector Test Condition IOH (2) IOH VO = 20 V μA IF = 0 mA, VCC = 30 V VO = 20 V, Ta = 70 °C HIGH-level supply current ICCH IF = 0 mA, VCC = 30 V ― 0.01 1 μA Supply voltage VCC ICC = 0.01 mA 30 ― ― V Output voltage VO IO = 0.5 mA 20 ― ― V Min Typ. Max Unit 20 ― ― % ― ― 0.4 V Min Typ. Max Unit ― 0.8 ― pF ― Ω Coupled Electrical Characteristics (Ta = 25 °C) Characteristic Current transfer ratio LOW-level output voltage Symbol IO / I F VOL Test Condition IF = 16 mA, VCC = 4.5 V VO = 0.4 V IF = 16 mA, VCC = 4.5 V IO = 2.4 mA Isolation Characteristics (Ta = 25 °C) Characteristic Capacitance input to output Isolation resistance Symbol CS RS Test Condition V = 0 V, f = 1 MHz R.H. ≤ 60%,VS = 500 V Note 1: BVS (Note 1) 1×10 12 10 14 5000 ― ― AC, 1 s, in oil ― 10000 ― DC, 60 s, in oil ― 10000 ― AC, 60 s Isolation voltage (Note 1) Vrms Vdc Device considered a two-terminal device: pins 1, 2 and 3 paired with pins 4, 5 and 6 respectively. 3 2017-09-26 TLP719 Switching Characteristics (Ta = 25 °C, VCC = 5 V) Characteristic Test Circuit Symbol Propagation delay time (H→ L) tpHL Fig1 Test Condition Min Typ. Max Unit IF = 0→ 16 mA RL = 1.9kΩ ― ― 0.8 μs ― ― 0.8 μs (L→ H) tpLH IF = 16→ 0 mA RL = 1.9kΩ Common mode transient immunity at logic HIGH output (Note 1) CMH IF = 0 mA VCM = 400 Vp−p RL = 1.9kΩ 10000 ― ― V / μs IF = 16 mA VCM = 400 Vp−p RL = 1.9 kΩ −10000 ― ― V / μs Propagation delay time Fig2 Common mode transient immunity at logic LOW output CML (Note 1) Note 1 : CML is the maximum rate of fall of the common mode voltage that can be sustained with the output voltage in the logic LOW state (VO < 0.8 V). CMH is the maximum rate of rise of the common mode voltage that can be sustained with the output voltage in the logic HIGH state (VO >2.0 V). Figure 1. Switching Time Test Circuit VCC = 5 V IF PULSE INPUT ( PW = 100 μs Duty = 10%) → 1 6 RL 2 5 3 4 IF VO MONITORING NODE 0.1 μF tpHL tpLH VO 5V SHIELD IF MONITORING NODE 1.5V VOL Figure 2. Common Mode Noise Immunity Test Circuit. IF → SW A 1 6 2 5 B RL=1.9kΩ VO 4 3 SHIELD 0.1μF VCM tr VOH tf 400 V 10% 0V CMH SW:B (IF= 0 mA) − + 90% VCC=5V VOL SW:A (IF = 16 mA) 2V 0.8 V CML 320 (V) tr (μs) CMH = CML = − 320 (V) tf (μs) VCM 4 2017-09-26 TLP719 ∆VF / ∆Ta – IF IF – V F Forward voltage temperature coefficient ∆vf / ∆ta (mV / °C) 100 Ta = 25°C Forward current IF (mA) 50 30 10 5 3 1 0.5 0.3 0.1 0.05 0.03 0.01 1.0 1.2 1.4 1.6 Forward voltage 1.8 VF 2.0 −2.6 −2.4 −2.2 −2.0 −1.8 −1.6 −1.4 0.1 0.3 0.5 (V) 1 3 Forward current IOH(1) – Ta 5 IF 10 30 (mA) IO – I F 300 10 (mA) 100 IO 50 30 Output current High level output current IOH(1) (nA) VCC = 5 V 10 5 3 5 VO = 0.4 V 3 Ta = 25°C 1 0.5 0.3 0.1 0.05 0.03 1 0 40 80 120 Ambient temperature Ta 0.01 0.1 160 0.3 (°C) 1 IO / I F – I F 100 30 IF 300 (mA) IO / IF – Ta 1.2 (%) VCC = 5 V VO = 0.4 V 50 1.0 30 I O / IF I O / IF 10 Forward current 100 Normalized Ta = -25°C Current transfer ratio 3 10 25°C 100°C 5 0.8 0.6 0.4 IF = 16 mA 3 VCC = 4.5 V 0.2 1 0.3 0.5 1 3 Forward current 5 10 IF 30 0 -40 50 (mA) VO = 0.4 V -20 0 20 40 Ambient temperature 5 60 Ta 80 100 (°C) 2017-09-26 TLP719 IO – VO V O – IF 5 VCC = 5 V 30mA 10 VO (V) (mA) 8 IO 20mA 4 RL Vo 15mA 4 10mA 2 IF = 5mA 1 3 2 4 Output voltage 5 VO 6 4 8 12 Forward current 16 20 IF (mA) 24 tpHL , tpLH - Ta 5 VCC=5V tpLH Ta=25℃ 3.9 kΩ 1 (V) I F =16mA 3 RL = 2 kΩ 0 0 7 tpHL, tpLH - RL 5 Ta = 25°C 2 10 kΩ Propagation delay time 　tpHL, tpLH （μs） Output current 6 Output voltage 3 0 0 Propagation delay time tpHL, tpLH (μs） VCC = 5V IF Ta = 25°C 25mA 1 0.5 tpHL 0.3 3 I F =16mA VCC=5V RL=1.9kΩ 1 0.5 tpHL 0.3 tpLH 0.1 1 3 5 10 30 50 0.1 -40 100 Load resistance　R L　（ｋΩ） -20 0 20 40 60 80 100 Ambient temperature　Ta　（℃） 6 2017-09-26 TLP719 RESTRICTIONS ON PRODUCT USE Toshiba Corporation and its subsidiaries and affiliates are collectively referred to as “TOSHIBA”. Hardware, software and systems described in this document are collectively referred to as “Product”. • TOSHIBA reserves the right to make changes to the information in this document and related Product without notice. • This document and any information herein may not be reproduced without prior written permission from TOSHIBA. Even with TOSHIBA's written permission, reproduction is permissible only if reproduction is without alteration/omission. • Though TOSHIBA works continually to improve Product's quality and reliability, Product can malfunction or fail. Customers are responsible for complying with safety standards and for providing adequate designs and safeguards for their hardware, software and systems which minimize risk and avoid situations in which a malfunction or failure of Product could cause loss of human life, bodily injury or damage to property, including data loss or corruption. Before customers use the Product, create designs including the Product, or incorporate the Product into their own applications, customers must also refer to and comply with (a) the latest versions of all relevant TOSHIBA information, including without limitation, this document, the specifications, the data sheets and application notes for Product and the precautions and conditions set forth in the "TOSHIBA Semiconductor Reliability Handbook" and (b) the instructions for the application with which the Product will be used with or for. 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Please use Product in compliance with all applicable laws and regulations that regulate the inclusion or use of controlled substances, including without limitation, the EU RoHS Directive. TOSHIBA ASSUMES NO LIABILITY FOR DAMAGES OR LOSSES OCCURRING AS A RESULT OF NONCOMPLIANCE WITH APPLICABLE LAWS AND REGULATIONS. 7 2017-09-26