HCPL 0601 PDF

Surface Mountable? High Speed: 10 Mbd? Low Input Current Capability: 5 mA? Recognized under the Component Program of U. File No.

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An enable input allows the detector to be strobed. The output of the detector IC is an open collector Schottkyclamped transistor. The optocoupler AC and DC operational param? High speed: 10 MBd typical?

Low input current capability: 5 mA? Guaranteed AC and DC performance over temper? Strobable output single channel products only? Safety approval UL recognized - Vrms for 1 minute and ? Isolated line receiver? Computer-peripheral interfaces? Microprocessor system interfaces? Switching power supply? Ground loop elimination? Pulse transformer replacement?

Power transistor isolation in motor drives? F bypass capacitor must be connected between pins 5 and 8. Technical data are on separate Avago publications.

Enable is available for single channel products only, except for HCPLx devices. Combination of Option and Option is not available. Example 2: Option datasheets are available. Contact your Avago sales representative or authorized distributor for information. Non-halide flux should be used. Measured from input terminals to output terminals, shortest distance path along body. Through insulation distance, conductor to conductor, usually the direct distance between the photoemitter and photodetector inside the optocoupler cavity.

Measured from input terminals to output terminals, along internal cavity. VIORM x 1. Case Temperature?? Note: Isolation characteristics are guaranteed only within the safety maximum ratings which must be ensured by protective circuits in application. Note: Isolation characteristics are guaranteed only within the safety maximum ratings, which must be ensured by protective circuits in application.

Symbol Min. It is recommended that 6. For single channel products only. All enable test conditions apply to single channel products only. See note 5. Parameter Sym. Package Min. Test Conditions Fig. Device Min. Each channel. Peaking circuits may produce transient input currents up to 50 mA, 50 ns maximum pulse width, provided average current does not exceed 20 mA.

Peaking circuits may produce transient input currents up to 50 mA, 50 ns maximum pulse width, provided average current does not exceed 15 mA.

Bypassing of the power supply line is required, with a 0. F ceramic disc capacitor adjacent to each optocoupler as illustrated in Figure Total lead length between both ends of the capacitor and the isolator pins should not exceed 20 mm. Avago guarantees a maximum IOH of ? Avago guarantees a maximum IEL of The tPLH propagation delay is measured from the 3. The tPHL propagation delay is measured from the 3. The tELH enable propagation delay is measured from the 1. The tEHL enable propagation delay is measured from the 1.

CMH is the maximum tolerable rate of rise of the common mode voltage to assure that the output will remain in a high logic state i. CML is the maximum tolerable rate of fall of the common mode voltage to assure that the output will remain in a low logic state i. No external pull up is required for a high logic state on the enable input. Device considered a two-terminal device: pins 1, 2, 3, and 4 shorted together, and pins 5, 6, 7, and 8 shorted together. Measured between the LED anode and cathode shorted together and pins 5 through 8 shorted together.

For dual channel products only. Measured between pins 1 and 2 shorted together, and pins 3 and 4 shorted together. Typical high level output current vs. Typical output voltage vs.

Typical input threshold current vs. Typical low level output voltage vs. Typical low level output current vs. Typical temperature coefficient of forward voltage vs.

Typical propagation delay vs. Typical pulse width distortion vs. Typical rise and fall time vs. Test circuit for tEHL and? Typical enable propagation delay vs. Figure The propaga? Similarly, the propagation delay from high to low tPHL is the amount of time required for the input signal to propagate to the output causing the output to change from high to low see Figure? PWD can be expressed in percent by dividing the PWD in ns by the minimum pulse width in ns being transmitted. Propagation delay skew, tPSK, is an important parameter to consider in parallel data appli?

If the parallel data is being sent through a group of optocouplers, differ? If this difference in propagation delays is large enough, it will determine the maximum rate at which parallel data can be sent through the optocouplers. Propagation delay skew is defined as the difference between the minimum and maximum propagation delays, either tPLH or tPHL, for any given group of optocouplers which are operating under the same conditions i.

As mentioned earlier, tPSK can determine the maximum parallel data transmission rate. Figure 20 is the timing diagram of a typical parallel data application with both the clock and the data lines being sent through optocouplers. The figure shows data and clock signals at the inputs and outputs of the optocouplers.

To obtain the maximum data transmission rate, both edges of the clock signal are being used to clock the data; if only one edge were used, the clock signal would need to be twice as fast. Propagation delay skew repre? Figure 20 shows that there will be uncertainty in both the data and the clock lines. It is important that these two areas of uncertainty not overlap, otherwise the clock signal might arrive before all of the data outputs have settled, or some of the data outputs may start to change before the clock signal has arrived.

From these considera? A cautious design should use a slightly longer pulse width to ensure that any additional uncertainty in the rest of the circuit does not cause a problem. The tPSK specified optocouplers offer the advantages of guaranteed specifications for propagation delays, pulsewidth distortion and propagation delay skew over the recom?

Illustration of propagation delay skew - tPSK Figure Parallel data transmission example 20 For product information and a complete list of distributors, please go to our website: www. Data subject to change. All rights reserved.

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