AD7366-5ARUZ AD [Analog Devices], AD7366-5ARUZ Datasheet - Page 12

AD7366-5ARUZ

Manufacturer Part Number

AD7366-5ARUZ

Description

True Bipolar Input, Dual 1us, 12-Bit, 2-Channel SAR ADC

Manufacturer

AD [Analog Devices]

Datasheet

1.AD7366-5ARUZ.pdf (17 pages)

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AD7366

ANALOG INPUTS

Each ADC in the AD7366 has two Single Ended Analog Inputs.

Figure 5 shows the equivalent circuit of the analog input

structure of the AD7366. The two diodes provide ESD

protection. Care must be taken to ensure that the analog input

signals never exceed the supply rails by more than 300 mV. This

causes these diodes to become forward-biased and starts

conducting current into the substrate. These diodes can

conduct up to 10 mA without causing irreversible damage to

the part. Capacitor C1 in Figure 5 is typically 5 pF and can

primarily be attributed to pin capacitance. The resistors are

lumped components made up of the on resistance of the

switches. The value of these resistors is typically about TBD Ω.

Capacitor C2 is the ADC’s sampling capacitors with a

capacitance of approximately TBDpF for the ±10V input range

and approximately TBDpF for all other input ranges.

The AD7366 can handle true bipolar input voltages. The

Analog input can be set to one of three ranges; ±10V, ±5V, 0-

10V. The logic levels on pins RANGE0 and RANGE1

determine which input range is selected as outlined in

Table 7. These range bits should not be changed during the

acquisition time prior to a conversion but may change at any

other time.

Table 7. Analog Input Range Selection

RANGE1

AGND

SW1

Figure 5 Equivalent Analog Input Structure

RANGE0

Figure 4 ADC Conversion Phase

SW2

Range Selected

COMPARATOR

0 to 10V

±10V

±5V

CAPACITIVE

CONTROL

LOGIC

DAC

Rev. PrG | Page 12 of 17

The AD7366 requires V

voltage analog input structures. These supplies must be equal to

or greater than ±11.5V. See Table 6 for the requirements on

these supplies. The AD7366 requires a low voltage 4.75V to

5.25V AV

supply for the interface power.

Channel selection is made via the ADDR pin as shown in Table

8. The logic level on the ADDR pin is latched on the rising edge

of BUSY for the next conversion, not the one in progress. When

power is first supplied to the AD7366 the default channel

selection will be V

Table 8. Channel Selection

ADDR

Transfer Function

The AD7366 output coding is two’s complement. The designed

code transitions occur at successive integer LSB values (i.e. 1

LSB, 2 lSB, and so on). The LSB size is dependant on the analog

input range selected.

Table 9 LSB sizes for each Analog Input Range.

Input Range

±10 V

±5 V

0 to 10 V

The ideal transfer characteristic is shown in Figure 6

supply for the Digital Power and a 2.7V to 5.25V V

supply to power the ADC core, a 4.75V to 5.25V

011...111

100...010

100...000

011...110

000...001

000...000

111...111

100...001

Channels Selected

Full Scale Range/4096

20 V/4096

10 V/4096

10V/4096

-FSR/2

Figure 6.Transfer Characteristic

Preliminary Technical Data

, V

and V

+ 1LSB

and V

ANALOG INPUT

dual supplies for the high

Do not program

+FSR/2 - 1LSB

LSB Size

4.88mV

2.44mV

DRIVE

AD7366-5ARUZ AD [Analog Devices], AD7366-5ARUZ Datasheet - Page 12

AD7366-5ARUZ

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