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AD573KN Fiches technique(PDF) 3 Page - Analog Devices |
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AD573KN Fiches technique(HTML) 3 Page - Analog Devices |
3 / 8 page AD573 REV. A –3– ABSOLUTE MAXIMUM RATINGS V+ to Digital Common . . . . . . . . . . . . . . . . . . . . . 0 V to +7 V V– to Digital Common . . . . . . . . . . . . . . . . . . . 0 V to –16.5 V Analog Common to Digital Common . . . . . . . . . . . . . . . ±1 V Analog Input to Analog Common . . . . . . . . . . . . . . . . . ±15 V Control Inputs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 0 V to V+ Digital Outputs (High Impedance State) . . . . . . . . . . 0 V to V+ Power Dissipation . . . . . . . . . . . . . . . . . . . . . . . . . . . . 800 mW ORDERING GUIDE 1 Temperature Relative Model Package Option 2 Range Accuracy AD573JN 20-Pin Plastic DIP (N-20) 0 °C to +70°C ±1 LSB max AD573KN 20-Pin Plastic DIP (N-20) 0 °C to +70°C ±1/2 LSB max AD573JP 20-Pin Leaded Chip Carrier (P-20A) 0 °C to +70°C ±1 LSB max AD573KP 20-Pin Leaded Chip Carrier (P-20A) 0 °C to +70°C ±1/2 LSB max AD573JD 20-Pin Ceramic DIP (D-20) 0 °C to +70°C ±1 LSB max AD573KD 20-Pin Ceramic DIP (D-20) 0 °C to +70°C ±1/2 LSB max AD573 SD 20-Pin Ceramic DIP (D-20) –55 °C to +125°C ±1 LSB max NOTES 1For details on grade and package offerings screened in accordance with MIL-STD-883, refer to Analog Devices Military Products Databook. 2D = Ceramic DIP; N = Plastic DIP; P = Plastic Leaded Chip Carrier. FUNCTIONAL DESCRIPTION A block diagram of the AD573 is shown in Figure 1. The posi- tive CONVERT pulse must be at least 500 ns wide. DR goes high within 1.5 µs after the leading edge of the convert pulse indicating that the internal logic has been reset. The negative edge of the CONVERT pulse initiates the conversion. The in- ternal 10-bit current output DAC is sequenced by the integrated injection logic (I 2L) successive approximation register (SAR) from its most significant bit to least significant bit to provide an output current which accurately balances the input signal cur- rent through the 5 k Ω resistor. The comparator determines whether the addition of each successively weighted bit current causes the DAC current sum to be greater or less than the input current; if the sum is more, the bit is turned off. After testing all bits, the SAR contains a 10-bit binary code which accurately represents the input signal to within 1/2 LSB (0.05% of full scale). The SAR drives DR low to indicate that the conversion is com- plete and that the data is available to the output buffers. HBE and LBE can then be activated to enable the upper 8-bit and lower 2-bit buffers as desired. HBE and LBE should be brought high prior to the next conversion to place the output buffers in the high impedance state. The temperature compensated buried Zener reference provides the primary voltage reference to the DAC and ensures excellent stability with both time and temperature. The bipolar offset in- put controls a switch which allows the positive bipolar offset current (exactly equal to the value of the MSB less 1/2 LSB) to be injected into the summing (+) node of the comparator to offset the DAC output. Thus the nominal 0 V to +10 V unipolar input range becomes a –5 V to +5 V range. The 5 k Ω thin-film input resistor is trimmed so that with a full-scale input signal, an input current will be generated which exactly matches the DAC output with all bits on. BURIED ZENER REF COMP- ARATOR ANALOG IN DB9 HIGH BYTE 10-BIT CURRENT OUTPUT DAC V+ V– DIGITAL COMMON CONVERT INT CLOCK 10-BIT SAR DB8 DB7 DB6 DB5 DB4 DB3 DB2 DB1 DB0 HBE LBE MSB LSB LOW BYTE ANALOG COMMON BIPOLAR OFFSET CONTROL DATA READY AD573 5k Figure 1. Functional Block Diagram UNIPOLAR CONNECTION The AD573 contains all the active components required to per- form a complete A/D conversion. Thus, for many applications, all that is necessary is connection of the power supplies (+5 V and –12 V to –15 V), the analog input and the convert pulse. However, there are some features and special connections which should be considered for achieving optimum performance. The functional pinout is shown in Figure 2. The standard unipolar 0 V to +10 V range is obtained by short- ing the bipolar offset control pin (Pin 16) to digital common (Pin 17). |
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