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LTC1852 Datasheet(PDF) 7 Page - Linear Technology |
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LTC1852 Datasheet(HTML) 7 Page - Linear Technology |
7 / 24 page LTC1852/LTC1853 7 18523fa PIN FUNCTIONS CH0 to CH7 (Pins 1 to 8): Analog Input Pins. Input pins can be used single ended relative to the analog input common pin or differentially in pairs (CH0 and CH1, CH2 and CH3, CH4 and CH5, CH6 and CH7). COM (Pin 9): Analog Input Common Pin. For single-ended operation (DIFF = 0), COM is the “–” analog input. COM is disabled when DIFF is high. REFOUT (Pin 10): Internal 2.5V Reference Output. Bypass to analog ground plane with 1μF. REFIN (Pin 11): Reference Mode Select/Reference Buffer Input. REFIN selects the reference mode and acts as the reference buffer input. REFIN tied to ground (Logic 0) will produce 2.048V on the REFCOMP pin. REFIN tied to the positive supply (Logic 1) disables the reference buffer to allow REFCOMP to be driven externally. For voltages between 1V and 2.6V, the reference buffer produces an output voltage on the REFCOMP pin equal to 1.6384 times the voltage on REFIN (4.096V on REFCOMP for a 2.5V input on REFIN). REFCOMP (Pin 12): Reference Buffer Output. REFCOMP sets the full-scale input span. The reference buffer produces an output voltage on the REFCOMP pin equal to 1.6384 times the voltage on the REFIN pin (4.096V on REFCOMP for a 2.5V input on REFIN). REFIN tied to ground will produce 2.048V on the REFCOMP pin. REFCOMP can be driven externally if REFIN is tied to the positive supply. Bypass to analog ground plane with 10μF tantalum in parallel with 0.1μF ceramic or 10μF ceramic. GND (Pins 13, 16): Ground. Tie to analog ground plane. VDD (Pins 14, 15): Positive Supply. Bypass to analog ground plane with 10μF tantalum in parallel with 0.1μF ceramic or 10μF ceramic. DIFFOUT/S6 (Pin 17): Three-State Digital Data Output. Active when RD is low. Following a conversion, the single-ended/differential bit of the present conversion is available on this pin concurrent with the conversion result. In Readback mode, the single-ended/differential bit of the current sequencer location (S6) is available on this pin. The output swings between OVDD and OGND. A2OUT/S5, A1OUT/S4, A0OUT/S3 (Pins 18 to 20): Three- State Digital MUX Address Outputs. Active when RD is low. Following a conversion, the MUX address of the present conversion is available on these pins concurrent with the conversion result. In Readback mode, the MUX address of the current sequencer location (S5-S3) is available on these pins. The outputs swing between OVDD and OGND. D9/S2 (Pin 21, LTC1852): Three-State Digital Data Output. Active when RD is low. Following a conversion, bit 9 of the present conversion is available on this pin. In Readback mode, the unipolar/bipolar bit of the current sequencer location (S2) is available on this pin. The output swings between OVDD and OGND. D11/S2 (Pin 21, LTC1853): Three-State Digital Data Output. Active when RD is low. Following a conversion, bit 11 of the present conversion is available on this pin. In Readback mode, the unipolar/bipolar bit of the current sequencer location (S2) is available on this pin. The output swings between OVDD and OGND. D8/S1 (Pin 22, LTC1852): Three-State Digital Data Outputs. Active when RD is low. Following a conversion, bit 8 of the present conversion is available on this pin. In Readback mode, the gain bit of the current sequencer location (S1) is available on this pin. The output swings between OVDD and OGND. D10/S1 (Pin 22, LTC1853): Three-State Digital Data Outputs. Active when RD is low. Following a conversion, bit 10 of the present conversion is available on this pin. In Readback mode, the gain bit of the current sequencer location (S1) is available on this pin. The output swings between OVDD and OGND. D7/S0 (Pin 23, LTC1852): Three-State Digital Data Outputs. Active when RD is low. Following a conversion, bit 7 of the present conversion is available on this pin. In Readback mode, the end of sequence bit of the current sequencer location (S0) is available on this pin. The output swings between OVDD and OGND. |
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Similar Description - LTC1852_15 |
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