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AD7742BN Datasheet(PDF) 11 Page - Analog Devices |
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AD7742BN Datasheet(HTML) 11 Page - Analog Devices |
11 / 12 page REV. 0 AD7741/AD7742 –11– Isolation Applications In addition to analog-to-digital conversion, the AD7741/AD7742 can be used in isolated analog signal transmission applications. Due to noise, safety requirements or distance, it may be neces- sary to isolate the AD7741/AD7742 from any controlling circuitry. This can easily be achieved by using opto-isolators, which will provide isolation in excess of 3 kV. Opto-electronic coupling is a popular method of isolated signal coupling. In this type of device, the signal is coupled from an input LED to an output photo-transistor, with light as the con- necting medium. This technique allows dc to be transmitted, is extremely useful in overcoming ground loops between equip- ment, and is applicable over a wide range of speeds and power. The analog voltage to be transmitted is converted to a pulse train using the VFC. An opto-isolator circuit is used to couple this pulse train across an isolation barrier using light as the connecting medium. The input LED of the isolator is driven from the output of the AD7741/AD7742. At the receiver side, the output transistor is operated in the photo-transistor mode. The pulse train can be reconverted to an analog voltage using a frequency-to-voltage converter; alternatively, the pulse train can be fed into a counter to generate a digital signal. The analog and digital sections of the AD7741/AD7742 have been designed to allow operation from a single-ended power source, simplifying its use with isolated power supplies. Figure 12 shows a general purpose VFC circuit using a low cost opto-isolator. A +5 V power supply is assumed for both the isolated (+5 V isolated) and local (+5 V local) supplies. OPTOCOUPLER VCC R fOUT IN VDD +5V AD774x GND1 GND2 ISOLATION BARRIER Figure 12. Opto-Isolated Application Power Supply Bypassing and Grounding In any circuit where accuracy is important, careful consideration of the power supply and ground return layout helps to ensure the rated performance. The printed circuit board housing the AD7741/AD7742 should be designed so the analog and digital sections are separated and confined to certain areas of the board. To minimize capacitive coupling between them, digital and analog ground planes should only be joined in one place, close to the DUT and should not overlap. Avoid running digital lines under the device as these will couple noise onto the die. The analog ground plane should be allowed to run under the AD7742 to avoid noise coupling. The power supply lines to the AD7742 should use as large a trace as pos- sible to provide low impedance paths and reduce the effects of glitches on the power supply line. Fast switching signals like clocks should be shielded with digital ground to avoid radiating noise to other parts of the board and clock signals should never be run near analog inputs. Avoid crossover of digital and analog signals. Traces on opposite sides of the board should run at right angles to each other. This reduces the effect of feedthrough through the board. A microstrip technique is by far the best but is not always possible with a double-sided board. In this tech- nique, the component side of the board is dedicated to the ground plane while the signal traces are placed on the solder side. Good decoupling is also important. All analog supplies should be decoupled to GND with surface mount capacitors, 10 µF in parallel with 0.1 µF located as close to the package as possible, ideally right up against the device. The lead lengths on the by- pass capacitor should be as short as possible. It is essential that these capacitors be placed physically close to the AD7741/AD7742 to minimize the inductance of the PCB trace between the ca- pacitor and the supply pin. The 10 µF are the tantalum bead type and are located in the vicinity of the VFC to reduce low- frequency ripple. The 0.1 µF capacitors should have low Effec- tive Series Resistance (ESR) and Effective Series Inductance (ESI), such as the common ceramic types, which provide a low impedance path to ground at high frequencies to handle tran- sient currents due to internal logic switching. Additionally, it is beneficial to have large capacitors (> 47 µF) located at the point where the power connects to the PCB. |
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