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AD652SQ2 Datasheet(PDF) 9 Page - Analog Devices |
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AD652SQ2 Datasheet(HTML) 9 Page - Analog Devices |
9 / 28 page AD652 Rev. C | Page 9 of 28 SVFC CONNECTION FOR DUAL SUPPLY, POSITIVE INPUT VOLTAGES Figure 8 shows the AD652 connection scheme for the traditional dual supply, positive input mode of operation. The ±VS range is from ±6 V to ±18 V. When +VS is lower than 9.0 V, As shown in Figure 8, three additional connections are required The first connection is to short Pin 13 to Pin 8 (Analog Ground to −VS) and add a pull-up resistor to +VS (as shown in Figure 21). The pull-up resistor is determined by the following equation: µA 500 V 5 2 − = S PULLUP V R These connections ensure proper operation of the 5 V reference. Tie Pin 16 to Pin 6 (as shown in Figure 21) to ensure that the integrator output ramps down far enough to trip the comparator. The CERDIP-packaged AD652 accepts either a 0 V to 10 V or 0 mA to 0.5 mA full-scale input signal. The temperature drift of the AD652 is specified for a 0 V to 10 V input range using the internal 20 kΩ resistor. If a current input is used, the gain drift is degraded by a maximum of 100 ppm/°C (the TC of the 20 kΩ resistor). If an external resistor is connected to Pin 5 to establish a different input voltage range, drift is induced to the extent that the external resistor’s TC differs from the TC of the internal resistor. The external resistor used to establish a different input voltage range should be selected to provide a full-scale current of 0.5 mA (i.e., 10 kΩ for 0 V to 5 V). SVFC CONNECTIONS FOR NEGATIVE INPUT VOLTAGES Voltages that are negative with respect to ground may be used as the input to the AD652 SVFC. In this case, Pin 7 is grounded and the input voltage is applied to Pin 6 (see Figure 9). In this mode, the input voltage can go as low as 4 V above −VS. In this configuration, the input is a high impedance, and only the 20 nA (typical) input bias current of the op amp must be supplied by the input signal. This is contrasted with the more usual positive input voltage configuration, which has a 20 kΩ input impedance and requires 0.5 mA from the signal source. +VS 1 2 3 4 – + 5 6 7 +VS VIN 8 16 15 14 13 12 11 10 9 ONE SHOT AND "D" FLOP QCK D Q 1mA 20k Ω AD652 SYNCHRONOUS VOLTAGE-TO- FREQUENCY CONVERTER 5V REFERENCE RL 5V CLOCK ANALOG GND DIGITAL GND FREQ OUT CINT –VS Figure 8. Standard V/F Connection for Positive Input Voltage with Dual Supply +VS 1 2 3 4 5 6 7 +VS –VS 8 16 15 14 13 12 11 10 9 ONE SHOT AND "D" FLOP QCK D Q 1mA 20k Ω AD652 SYNCHRONOUS VOLTAGE-TO- FREQUENCY CONVERTER 5V REFERENCE RL 5V CLOCK ANALOG GND DIGITAL GND FREQ OUT CINT – + VIN Figure 9. Negative Voltage Input |
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