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ADUM6132 Datasheet(PDF) 3 Page - Analog Devices |
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ADUM6132 Datasheet(HTML) 3 Page - Analog Devices |
3 / 12 page PRELIMINARY TECHNICAL DATA ADuM6132 Rev. PrG| Page 3 of 12 1 The maximum output current is the maximum isolated supply current that the ADuM6132 can provide. This current supports external loads as well as the needs of the ADuM6132 Channel A output circuitry. This is achieved via external connection of VISO to VDDA and GNDISO to GNDA (Figure 3). The net current available to power external loads is the ADuM6132 output current IISO less the Channel A supply current IDDA. 2 IDDA is supplied by the output of the integrated isolated dc/dc power as described in Footnote 1 above. IDDB is supplied by external power connection to VDDB pin. See Figure 3. 3 Duration less than 1 second. Average output current must conform to the limit shown under the Absolute Maximum Ratings. 4 The minimum pulse width is the shortest pulse width at which the specified pulse width distortion is guaranteed. Operation below the minimum pulse width is not recommended. 5 The maximum switching frequency is the maximum signal frequency at which the specified timing parameters are guaranteed. Operation beyond the maximum frequency is not recommended since high switching rates can cause droop in the output supply voltage. 6 tPHL propagation delay is measured from the 50% level of the falling edge of the VIx signal to the 50% level of the falling edge of the VOx signal. tPLH propagation delay is measured from the 50% level of the rising edge of the VIx signal to the 50% level of the rising edge of the VOx signal. 7 “Channel-to-channel matching, rising or falling matching edge polarity” is the magnitude of the propagation delay difference between two channels of the same part when both inputs are either both rising or falling edges. The loads on each channel are equal. 8 “Channel-to-channel matching, rising vs. falling opposite edge polarity” is the magnitude of the propagation delay difference between two channels of the same part when one input is a rising edge and one input is a falling edge. The loads on each channel are equal. 9 Part-to-part matching is the magnitude of the propagation delay difference between the same channels of two different parts. This includes rising vs. rising, falling vs. falling, or rising vs. falling edges. The supply voltages, temperatures, and loads of each part are equal. |
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