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AD7731BR Datenblatt(PDF) 9 Page - Analog Devices |
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AD7731BR Datenblatt(HTML) 9 Page - Analog Devices |
9 / 44 page AD7731 –9– REV. 0 PIN FUNCTION DESCRIPTIONS (Continued) Pin Pin No. Mnemonic Function 20 RDY Logic output. Used as a status output in both conversion mode and calibration mode. In conversion mode, a logic low on this output indicates that a new output word is available from the AD7731 data register. The RDY pin will return high upon completion of a read operation of a full output word. If no data read has taken place after an output update, the RDY line will return high prior to the next output update, remain high while the update is taking place and return low again. This gives an indication of when a read operation should not be initiated to avoid initiating a read from the data register as it is being updated. In calibration mode, RDY goes high when calibration is initiated and returns low to indicate that calibration is complete. A number of different events on the AD7731 set the RDY high and these are outlined in Table XVII. 21 DOUT Serial Data Output with serial data being read from the output shift register on the part. This output shift register can contain information from the calibration registers, mode register, status register, filter register or data register depending on the register selection bits of the Communications Register. 22 DIN Serial Data Input with serial data being written to the input shift register on the part. Data from this input shift register is transferred to the calibration registers, mode register, communications register or filter regis- ter depending on the register selection bits of the Communications Register. 23 DVDD Digital Supply Voltage, +3 V or +5 V nominal. 24 DGND Ground reference point for digital circuitry. TERMINOLOGY INTEGRAL NONLINEARITY This is the maximum deviation of any code from a straight line passing through the endpoints of the transfer function. The end- points of the transfer function are zero scale (not to be confused with bipolar zero), a point 0.5 LSB below the first code transi- tion (000 . . . 000 to 000 . . . 001) and full scale, a point 0.5 LSB above the last code transition (111 . . . 110 to 111 . . . 111). The error is expressed as a percentage of full scale. POSITIVE FULL-SCALE ERROR Positive Full-Scale Error is the deviation of the last code transi- tion (111 . . . 110 to 111 . . . 111) from the ideal AIN(+) voltage (AIN(–) + VREF/GAIN – 3/2 LSBs). It applies to both unipolar and bipolar analog input ranges. UNIPOLAR OFFSET ERROR Unipolar Offset Error is the deviation of the first code transition from the ideal AIN(+) voltage (AIN(–) + 0.5 LSB) when oper- ating in the unipolar mode. BIPOLAR ZERO ERROR This is the deviation of the midscale transition (0111 ...111 to 1000 . . . 000) from the ideal AIN(+) voltage (AIN(–) – 0.5 LSB) when operating in the bipolar mode. GAIN ERROR This is a measure of the span error of the ADC. It is a measure of the difference between the measured and the ideal span be- tween any two points in the transfer function. The two points used to calculate the gain error are positive full scale and nega- tive full scale. BIPOLAR NEGATIVE FULL-SCALE ERROR This is the deviation of the first code transition from the ideal AIN(+) voltage (AIN(–) – VREF/GAIN + 0.5 LSB) when operat- ing in the bipolar mode. Negative full-scale error is a summation of zero error and gain error. POSITIVE FULL-SCALE OVERRANGE Positive Full-Scale Overrange is the amount of overhead avail- able to handle input voltages on AIN(+) input greater than AIN(–) + VREF/GAIN (for example, noise peaks or excess volt- ages due to system gain errors in system calibration routines) without introducing errors due to overloading the analog modu- lator or overflowing the digital filter. NEGATIVE FULL-SCALE OVERRANGE This is the amount of overhead available to handle voltages on AIN(+) below AIN(–) – VREF/GAIN without overloading the analog modulator or overflowing the digital filter. OFFSET CALIBRATION RANGE In the system calibration modes, the AD7731 calibrates its offset with respect to the analog input. The Offset Calibration Range specification defines the range of voltages the AD7731 can accept and still accurately calibrate offset. FULL-SCALE CALIBRATION RANGE This is the range of voltages that the AD7731 can accept in the system calibration mode and still accurately calibrate full scale. INPUT SPAN In system calibration schemes, two voltages applied in sequence to the AD7731’s analog input define the analog input range. The input span specification defines the minimum and maxi- mum input voltages from zero to full scale that the AD7731 can accept and still accurately calibrate gain. |
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