ACPL-M61L-560E Avago Technologies US Inc., ACPL-M61L-560E Datasheet
ACPL-M61L-560E
Specifications of ACPL-M61L-560E
Related parts for ACPL-M61L-560E
ACPL-M61L-560E Summary of contents
Page 1
... The optocouplers CMOS outputs are slew-rate controlled and is designed to allow the rise and fall time to be con- trolled over a wide load capacitance range. The ACPL-x6xL series operates from both 3.3 V and 5 V supply voltages with guaranteed AC and DC performance from –40°C to +105°C. ...
Page 2
... Example 1: The part number ACPL-M61L-560E describes an optocoupler with a surface mount SO-5 package; delivered in Tape and Reel with 1500 parts per reel; with IEC/EN/DIN EN 60747-5-5 Safety Approval; and full RoHS compliance. Option datasheets are available. Contact your Avago sales representative or authorized distributor for information. ...
Page 3
... Package Outline Drawings ACPL-061L and ACPL-064L SO-8 Package ROHS-COMPLIANCE INDICATOR XXXV 3.937 ± 0.127 YWW (0.155 ± 0.005 PIN ONE 0.406 ± 0.076 (0.016 ± 0.003) * 5.080 ± 0.127 (0.200 ± 0.005) 3.175 ± 0.127 (0.125 ± 0.005) Total package length (inclusive of mold flash) * 5.207 ± ...
Page 4
... BSG ROHS-COMPLIANCE INDICATOR W61L YWW 0.381±0.127 (0.015±0.005) 7° Dimensions in Millimeters (Inches). Lead coplanarity = 0.1 mm (0.004 inches). ACPL-K64L Stretched SO-8 Package ROHS-COMPLIANCE INDICATOR K64L YWW 7° Dimensions in Millimeters (Inches). Lead coplanarity = 0.1 mm (0.004 inches). 4 LAND PATTERN RECOMMENDATION ...
Page 5
... The recommended reflow soldering conditions are per JEDEC Standard J-STD-020 (latest revision). Non-halide flux should be used. Regulatory Information The ACPL-061L, ACPL-064L, ACPL-M61L, ACPL-W61L and ACPL-K64L are approved by the following organizations: IEC/EN/DIN EN 60747-5-5 (Option 060 only) UL Approval under UL 1577 component recognition program ...
Page 6
... V –0 260°C for 10 sec., 1.6 mm below seating plane LS See Package Outline Drawings section Characteristic ACPL-061L^/ ACPL-064L/ ACPL-W61L/ ACPL-M61L ACPL-K64L Unit I – – – III I – – – III I – III 55/105/21 55/105/ 560 1140 V peak 1063 2137 V peak 896 ...
Page 7
... Operating Temperature Input Current, Low Level Input Current, High Level Power Supply Voltage Low Level Enable Voltage *** High Level Enable Voltage *** Forward Input Voltage Logic Low Input Voltage *** For ACPL-061L only Electrical Specifications (DC) Over the recommended temperature (T cations are and T = 25° ...
Page 8
... V ≤ Part Number Min Typ Max All 46 80 All 40 80 All 100 All 6 30 All 30 All 12 10 All 12 10 ACPL-061L 9 ACPL-061L 12 All 20 35 All 20 35 All 35 ≤ 5.5 V). All typical speci- DD Units Test Conditions mA 1.68 k pF, CMOS Signal Levels 870 :, mA ...
Page 9
... PWD is less D than 10 ns. 9 Part Number Min Typ ACPL-061L^ 3750 ACPL-064L ACPL-M61L ACPL-W61L 5000 ACPL-K64L the rising edge of the input pulse to the 50 the falling edge of the input pulse to the 50% level of the rising edge of the and/or t ...
Page 10
V - FORWARD VOLTAGE - V F Figure 1. Typical input diode forward current characteristic. 1 0.9 0.8 0.7 0.6 0.5 0.4 0.3 0.2 0 TEMPERATURE - ...
Page 11
... Figure 8. Recommended printed circuit board layout and input current limiting resistor selection. 11 Supply Bypassing, LED Bias Resistors and PC Board Layout The ACPL-x6xL optocouplers are extremely easy to use and feature high speed, push-pull CMOS outputs. Pull-up resistors are not required. The external components required for proper operation are the input limiting resistors and the output bypass capacitor ...
Page 12
Propagation Delay, Pulse-Width Distortion and Propagation Delay Skew Propagation delay is a figure of merit which describes how quickly a logic signal propagates through a system. The propagation delay from low-to-high (t of time required for an input signal to ...
Page 13
... In some cases this can cause momentary missing pulses and may even cause input circuitry to latch-up in some alternate technologies. The ACPL-x6xL optocoupler family does not have an input latch-up issue. Even at very high CMR levels such as those experienced in end equipment level tests (for example IEC61000-4-4) the ACPL-x6xL series is immune to latch-up because of the simple diode structure of the LED ...
Page 14
... V DD 74LS04 or any totem-pole output logic gate GND 1 Figure 11. Recommended high-CMR drive circuit for the ACPL-x6xL. 14 switching threshold (I to which I any condition where a common-mode transient causes a momentary decrease in I > referring to Table 1). will cause a common-mode FN failure for transients which are fast enough. Likewise for a common-mode transient that occurs when the LED is off (i ...
Page 15
... ≈ 1 Shield Figure 12. AC equivalent circuit of ACPL-x6xL. Table 1. Common Mode Pulse Polarity and LED Current Transients If dV /dt Is: Then I flows positive (> 0) away from the LED anode through C negative (< 0) toward the LED anode through C 15 For ACPL-061L/064L/K64L 3 5 DD2 ...
Page 16
... High 20 Impedence - High 15 Impedence 10 5 discharge delay, 0 depending on the power -40 supply slew rate Figure 15. Rise and Fall time of ACPL-x6xL across wide load capacitance Rise Time (V = 5.0V) DD 10pF 15pF 22pF 33pF 47pF 100pF - Temperature (°C) Fall Time (V = 5.0V) DD 10pF 15pF 22pF ...
Page 17
Speed Improvement A peaking capacitor can be placed across the input current limit resistor (Figure 11) to achieve enhanced speed per- formance. The value of the peaking cap is dependent to the rise and fall time of the input signal ...