Datasheet

ManualsBrandsTEXAS INSTRUMENTS ManualsData collecting ICsData acquisition IC - AD converter (ADC) External , Internal SOIC 28

ADS7807

SBAS022D

www.ti.com

WITH RESISTORS WITHOUT RESISTORS WITH RESISTORS WITHOUT RESISTORS

RANGE (V) RANGE (mV) RANGE (mV) TYP (mV) RANGE (% FS) RANGE (% FS) TYP

±10 –10 ≤ BPZ ≤ 10 0 ≤ BPZ ≤ 35 15 –0.4 ≤ G ≤ 0.4 –0.3 ≤ G ≤ 0.5 +0.05

0.15 ≤ G

(1)

≤ 0.15 –0.1 ≤ G

(1)

≤ 0.2 +0.05

0 to 5 –3 ≤ UPO ≤ 3 –12 ≤ UPO ≤ –3 –7.5 –0.4 ≤ G ≤ 0.4 –1.0 ≤ G ≤ 0.1 –0.2

0.15 ≤ G

(1)

≤ 0.15 –0.55 ≤ G

(1)

≤ –0.05 –0.2

0 to 4 –3 ≤ UPO ≤ 3 –10.5 ≤ UPO ≤ –1.5 –6 –0.4 ≤ G ≤ 0.4 –1.0 ≤ G ≤ 0.1 –0.2

–0.15 ≤ G

(1)

≤ 0.15 –0.55 ≤ G

(1)

≤ –0.05 –0.2

NOTE: (1) High Grade.

The external resistors (see Figure 7b) may not be necessary

in some applications. These resistors provide compensation

for an internal adjustment of the offset and gain which allows

calibration with a single supply. Not using the external

resistors will result in offset and gain errors in addition to

those listed in the Electrical Characteristics section. Offset

refers to the equivalent voltage of the digital output when

converting with the input grounded. A positive gain error

occurs when the equivalent output voltage of the digital

output is larger than the analog input. Refer to Table VII for

nominal ranges of gain and offset errors with and without the

external resistors. Refer to Figure 8 for typical shifts in the

transfer functions which occur when the external resistors

are removed.

To further analyze the effects of removing any combination of

the external resistors, consider Figure 9. The combination of

the external and the internal resistors form a voltage divider

which reduces the input signal to a 0.3125V to 2.8125V input

range at the Capacitor Digital-to-Analog Converter (CDAC).

The internal resistors are laser trimmed to high relative accu-

racy to meet full scale specifications. The actual input imped-

ance of the internal resistor network looking into pin 1 or pin

3 however, is only accurate to ±20% due to process variations.

This should be taken into account when determining the

effects of removing the external resistors.

REFERENCE

The ADS7807 can operate with its internal 2.5V reference or

an external reference. By applying an external reference to

pin 5, the internal reference can be bypassed; REFD (pin 26)

tied HIGH will power-down the internal reference reducing

the overall power consumption of the ADS7807 by approxi-

mately 5mW.

OFFSET ERROR GAIN ERROR

TABLE VII. Range of Offset and Gain Errors With and Without External Resistors.

FIGURE 8. Typical Transfer Functions With and Without External Resistors.

INPUT

Digital Output

(b) Unipolar

–Full-Scale

+Full-Scale

Analog Input

Digital Output

(a) Bipolar

–Full-Scale

+Full-Scale

Analog Input

Typical Transfer Functions

With External Resistors

Typical Transfer Functions

Without External Resistors