Datenblatt-Suchmaschine für elektronische Bauteile |
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AD394 Datenblatt(PDF) 8 Page - Analog Devices |
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AD394 Datenblatt(HTML) 8 Page - Analog Devices |
8 / 12 page AD394 Rev. A | Page 8 of 12 TIMING The AD394 control signal timing is very straightforward. CS1– CS4 must maintain a minimum pulse width of at least 400 ns for a desired operation to occur. When loading data from a bus into a 12-bit wide data latch, the data must be stable for at least 210 ns before returning CS to a high state. When CS is low, the data latch is transparent, allowing the data at the input to propa- gate through to the DAC. Data can change immediately after the chip select returns high. DAC settling time is measured from the falling edge of the active chip select. Table 5. AD394 Timing Specifications, TMIN to TMAX Symbol Parameter Typ Units tCS Chip Select Pulse Width 170 ns min tDA Data Access Time 0 ns min tDS Data Setup Time 150 ns min tDH Data Hold Time 5 ns min Figure 6. Timing Diagram ANALOG CIRCUIT DETAILS Grounding Rules The AD394 includes two ground connections to minimize system accuracy degradation arising from grounding errors. The two ground pins are designated DGND (Pin 17) and AGND (Pin 23). The DGND pin is the return for the supply current and serves as the reference point for the digital input thresholds. Thus, DGND should be connected to the same ground as the circuitry that drives the digital inputs. Pin 23, AGND, is a high quality analog ground connection. This pin should serve as the reference point for all analog circuitry associated with the AD394. It is recommended that any analog signal path carrying significant currents have its own return connection to Pin 23, as shown in Figure 7. Several complications arise in practical systems, particularly if the load is referred to a remote ground. These complications include dc gain errors due to wiring resistance between DAC and load, noise due to currents from other circuits flowing in power ground return impedances, and offsets due to multiple load currents sharing the same signal ground returns. While the DAC outputs are accurately developed between the output pin and Pin 23 (AGND), delivering these signals to remote loads can be a problem. These problems are compounded if a current booster stage is used, or if multiple packages are used. Figure 8 illustrates the parasitic impedances that influence output accuracy. Figure 7. Recommended Ground Connections Figure 8. Grounding Errors in Multiple AD394 Systems An output buffer configured as a subtracter, as shown in Figure 9, can greatly reduce these errors. First, sensing the voltage directly at the load with R4 eliminates the effects of voltage drops in wiring resistance. Second, sensing the remote ground directly with R3 eliminates the voltage drops caused by currents flowing through ZGA. Resistors R1 through R4 should be well matched to achieve maximum rejection of the voltage appearing across ZGA. Resistors matched to within 1 percent (including the effects of RW2 and RW3) reduce ground interac- tion errors by a factor of 100. |
Ähnliche Teilenummer - AD394_15 |
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Ähnliche Beschreibung - AD394_15 |
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