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AD679TJ Datenblatt(PDF) 8 Page - Analog Devices |
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AD679TJ Datenblatt(HTML) 8 Page - Analog Devices |
8 / 12 page AD679 REV. C –8– CONVERSION CONTROL In synchronous mode (SYNC = HIGH), both Chip Select (CS) and Start Convert (SC) must be brought LOW to start a con- version. CS should be LOW tSC before SC is brought LOW. In asynchronous mode (SYNC = LOW), a conversion is started by bringing SC low, regardless of the state of CS. Before a conversion is started, End-of-Convert (EOC) is HIGH and the sample-hold is in track mode. After a conversion is started, the sample-hold goes into hold mode and EOC goes LOW, signifying that a conversion is in progress. During the conversion, the sample-hold will go back into track mode and start acquiring the next sample. In track mode, the sample-hold will settle to ±0.003% (14 bits) in 1.5 µs maximum. The acquisition time does not affect the throughput rate as the AD679 goes back into track mode more than 2 µs before the next conversion. In multichannel systems, the input channel can be switched as soon as EOC goes LOW. Bringing OE LOW tOE after CS goes LOW makes the output register contents available on the output data bits (DB7–DB0). A period of time tCD is required after OE is brought HIGH be- fore the next SC instruction is issued. If SC is held LOW, conversion accuracy may deteriorate. For this reason, SC should not be held low in an attempt to operate in a continuously converting mode. START CONVERSION TRUTH TABLE INPUTS SYNC CS SC STATUS 1 1 X No Conversion Synchronous 1 0 f Start Conversion Mode 1 f 0 Start Conversion (Not Recommended) 1 0 0 Continuous Conversion (Not Recommended) 0 X 1 No Conversion Asynchronous 0 X f Start Conversion Mode 0 X 0 Continuous Conversion (Not Recommended) NOTES 1 = HIGH voltage level. 0 = LOW voltage level. X = Don’t care. = HIGH to LOW transition. Must stay low for t = t CP. 14-BIT MODE CODING FORMAT (1 LSB = 0.61 mV) Unipolar Coding Bipolar Coding (Straight Binary) (Twos Complement) VIN* Output Code VIN* Output Code 0.00000 V 000 . . . 0 –5.00000 V 100 . . . 0 5.00000 V 100 . . . 0 –0.00061 V 111 . . . 1 9.99939 V 111 . . . 1 0.00000 V 000 . . . 0 +2.50000 V 010 . . . 0 +4.99939 V 011 . . . 1 *Code center. END-OF-CONVERT In asynchronous mode, End-of-Convert (EOC) is an open drain output (requiring a minimum 3 k Ω pull-up resistor) enabled by End-of-Convert Enable (EOCEN). In synchronous mode, EOC is a three-state output which is enabled by EOCEN and CS. See Conversion Status Truth Table. Access (tBA) and float (tFD) timing specifications do not apply in asynchronous mode where they are a function of the time constant formed by the external load capacitance and the pull-up resistor. OUTPUT ENABLE OPERATION The data bits (DB7–DB0) are three-state outputs that are en- abled by Chip Select (CS) and Output Enable (OE). CS should be LOW tOE before OE is brought LOW. When EOC goes HIGH, the conversion is completed and the output data may be read. The output is read in two steps as a 16-bit word, with the high byte read first, followed by the low byte. High Byte Enable (HBE) controls the output sequence. The 14-bit result is left justified within the 16-bit field. In unipolar mode (BIPOFF tied to AGND), the output coding is straight binary. In bipolar mode (BIPOFF tied to REFOUT), output coding is twos-complement binary. POWER-UP The AD679 typically requires 10 µs after power-up to reset in- ternal logic. CONVERSION STATUS TRUTH TABLE INPUTS OUTPUT SYNC CS EOCEN EOC STATUS 1 0 0 0 Converting 1 0 0 1 Not Converting Synchronous 1 1 X High Z Either Mode 1 X 1 High Z Either 0 X 0 0 Converting Asynchronous 0 X 0 High Z Not Converting Mode* 0 X 1 High Z Either NOTES 1 = HIGH voltage level. 0 = LOW voltage level. X = Don’t care. *EOC requires a pull-up resistor in asynchronous mode. OUTPUT ENABLE TRUTH TABLE INPUTS OUTPUTS HBE (CS U OE) DB7 . . . DB0 X1 ← High Z → Unipolar or 0 0 a b c d e f g h Bipolar 1 0 i j k l m n 0 0 NOTES 1 = HIGH voltage level. a = MSB. 0 = LOW voltage level. n = LSB. X = Don’t care. U = Logical OR. Data coding is binary for Unipolar Mode and 2s Complement Binary for Bipolar Mode. |
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