ADC088S052 Datasheet, PDF(14/17 Page) National Semiconductor (TI) – 8-Channel, 200 kSPS to 500 kSPS, 8-Bit A/D Converter

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ADC088S052 Datasheet, PDF (14/17 Pages) National Semiconductor (TI) – 8-Channel, 200 kSPS to 500 kSPS, 8-Bit A/D Converter

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1.0 Functional Description (Continued)

neously and the ADC enters track mode. While there is no

timing restriction with respect to the falling edges of CS and

SCLK, see Figure 3 for setup and hold time requirements for

the falling edge of CS with respect to the rising edge of

SCLK.

During each conversion, data is clocked into a control reg-

ister through the DIN pin on the first 8 rising edges of SCLK

after the fall of CS. The control register is loaded with data

indicating the input channel to be converted on the subse-

quent conversion (see Tables 1, 2, 3).

The user does not need to incorporate a power-up delay or

dummy conversions as the ADC088S052 is able to acquire

the input signal to full resolution in the first conversion im-

mediately following power-up. The first conversion result

after power-up will be that of IN0.

TABLE 1. Control Register Bits

Bit 7 (MSB)

DONTC

Bit 6

DONTC

Bit 5

ADD2

Bit 4

ADD1

Bit 3

ADD0

Bit 2

DONTC

Bit 1

DONTC

Bit 0

DONTC

Bit #:

7, 6, 2, 1, 0

Symbol:

DONTC

ADD2

ADD1

ADD0

TABLE 2. Control Register Bit Descriptions

Description

Donât care. The values of these bits do not affect the device.

These three bits determine which input channel will be sampled and

converted at the next conversion cycle. The mapping between codes and

channels is shown in Table 3.

TABLE 3. Input Channel Selection

ADD2

ADD1

ADD0

Input Channel

IN0 (Default)

IN1

IN2

IN3

IN4

IN5

IN6

IN7

1.3 ADC088S052 TRANSFER FUNCTION

The output format of the ADC088S052 is straight binary.

Code transitions occur midway between successive integer

LSB values. The LSB width for the ADC088S052 is VA / 256.

The ideal transfer characteristic is shown in Figure 6. The

transition from an output code of 0000 0000 to a code of

0000 0001 is at 1/2 LSB, or a voltage of VA / 512. Other code

transitions occur at steps of one LSB.

1.4 ANALOG INPUTS

An equivalent circuit for one of the ADC088S052âs input

channels is shown in Figure 7. Diodes D1 and D2 provide

ESD protection for the analog inputs. The operating range

for the analog inputs is 0 V to VA. Going beyond this range

will cause the ESD diodes to conduct and result in erratic

operation.

The capacitor C1 in Figure 7 has a typical value of 3 pF and

is mainly the package pin capacitance. Resistor R1 is the on

resistance of the multiplexer and track / hold switch and is

typically 500 ohms. Capacitor C2 is the ADC088S052 sam-

pling capacitor, and is typically 30 pF. The ADC088S052 will

deliver best performance when driven by a low-impedance

source (less than 100 ohms). This is especially important

when using the ADC088S052 to sample dynamic signals.

Also important when sampling dynamic signals is a band-

pass or low-pass filter which reduces harmonics and noise in

the input. These filters are often referred to as anti-aliasing

filters.

20166614

FIGURE 7. Equivalent Input Circuit

20166611

FIGURE 6. Ideal Transfer Characteristic

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1.5 DIGITAL INPUTS AND OUTPUTS

The ADC088S052âs digital inputs (SCLK, CS, and DIN) have

an operating range of 0 V to VA. They are not prone to

latch-up and may be asserted before the digital supply (VD)

without any risk. The digital output (DOUT) operating range

is controlled by VD. The output high voltage is VD - 0.5V

(min) while the output low voltage is 0.4V (max).

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