ADS7816C Burr-Brown Corporation, ADS7816C Datasheet - Page 12

ADS7816C

Manufacturer Part Number

ADS7816C

Description

12-Bit High Speed Micro Power Sampling ANALOG-TO-DIGITAL CONVERTER

Manufacturer

Burr-Brown Corporation

Datasheet

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sion, the digital output must be updated with the results of the

last bit decision, the capacitor array appropriately switched

and charged, and the input to the comparator settled to a

12-bit level all within one clock cycle.

The basic SAR architecture is sensitive to spikes on the

power supply, reference, and ground connections that occur

just prior to latching the comparator output. Thus, during

any single conversion for an n-bit SAR converter, there are

n “windows” in which large external transient voltages can

easily affect the conversion result. Such spikes might origi-

nate from switching power supplies, digital logic, and high

power devices, to name a few. This particular source of error

can be very difficult to track down if the glitch is almost

synchronous to the converter’s DCLOCK signal—as the

phase difference between the two changes with time and

temperature, causing sporadic misoperation.

With this in mind, power to the ADS7816 should be clean

and well bypassed. A 0.1 F ceramic bypass capacitor should

be placed as close to the ADS7816 package as possible. In

addition, a 1 to 10 F capacitor and a 10 series resistor may

be used to lowpass filter a noisy supply.

The reference should be similarly bypassed with a 0.1 F

capacitor. Again, a series resistor and large capacitor can be

used to lowpass filter the reference voltage. If the reference

voltage originates from an op amp, be careful that the op-

amp can drive the bypass capacitor without oscillation (the

series resistor can help in this case). Keep in mind that while

the ADS7816 draws very little current from the reference on

average, there are higher instantaneous current demands

placed on the external reference circuitry.

Also, keep in mind that the ADS7816 offers no inherent

rejection of noise or voltage variation in regards to the

reference input. This is of particular concern when the

reference input is tied to the power supply. Any noise and

ripple from the supply will appear directly in the digital

results. While high frequency noise can be filtered out as

FIGURE 6. Thermocouple Application Using a MUX to Scale the Input Range of the ADS7816.

Thermocouple

ISO Thermal Block

ADS7816

150k

59k

10µF

500k

500

0.1µF

REF

ADS7816

+5V

described in the previous paragraph, voltage variation due to

the line frequency (50Hz or 60Hz), can be difficult to

remove.

The GND pin on the ADS7816 should be placed on a clean

ground point. In many cases, this will be the “analog”

ground. Avoid connecting the GND pin too close to the

grounding point for a microprocessor, microcontroller, or

digital signal processor. If needed, run a ground trace di-

rectly from the converter to the power supply connection

point. The ideal layout will include an analog ground plane

for the converter and associated analog circuitry.

The –In input pin should be connected directly to ground. In

those cases where the ADS7816 is a large distance from the

signal source and/or the circuit environment contains large

EMI or RFI sources, the –In input should be connected to the

ground nearest the signal source. This should be done with

a signal trace that is adjacent to the +In input trace. If

appropriate, coax cable or twisted-pair wire can be used.

APPLICATION CIRCUITS

Figures 6, 7, and 8 show some typical application circuits for

the ADS7816. Figure 6 uses an ADS7816 and a multiplexer

to provide for a flexible data acquisition circuit. A resistor

string provides for various voltages at the multiplexer input.

The selected voltage is buffered and driven into V

shown in Figure 6, the input range of the ADS7816 is

programmable to 100mV, 200mV, 300mV, or 400mV. The

100mV range would be useful for sensors such as the

thermocouple shown.

Figure 7 is more complex variation of Figure 6 with in-

creased flexibility. In this circuit, a digital signal processor

designed for audio applications is put to use in running three

ADS7816s and a DAC56. The DAC56 provides a variable

voltage for V

to be programmed from 100mV to 3V.

DCLOCK

CS/SHDN

OUT

0.1µF

Interface

3-Wire

REF

—enabling the input range of the ADS7816s

OPA237

+5V

µP

10µF

MUX

46k

REF

+5V

0.4V

0.3V

0.2V

0.1V

. As

ADS7816C Burr-Brown Corporation, ADS7816C Datasheet - Page 12

ADS7816C

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