MAX1323ECM-T Maxim Integrated, MAX1323ECM-T Datasheet - Page 11

MAX1323ECM-T

Manufacturer Part Number

MAX1323ECM-T

Description

Analog to Digital Converters - ADC

Manufacturer

Maxim Integrated

Datasheet

1.MAX1319ECM.pdf (20 pages)

Current page: 11 of 20
Download datasheet (249Kb)

To improve the input signal bandwidth under AC condi-

tions, drive the input with a wideband buffer (>50MHz)

that can drive the ADC’s input capacitance and settle

quickly. For example, the MAX4265 can be used for +5V

unipolar devices, or the MAX4350 can be used for ±5V

bipolar inputs.

The T/H aperture delay is typically 13ns. Figure 2 shows

a simplified equivalent input circuit, illustrating the ADC’s

sampling architecture.

The input tracking circuitry has a 10MHz small-signal

bandwidth, making it possible to digitize high-speed

transient events and measure periodic signals with

bandwidths exceeding the ADC’s sampling rate by

using undersampling techniques. To avoid high fre-

quency signals being aliased into the frequency band

of interest, anti-alias filtering is recommended.

These devices provide ±10V, ±5V or 0 to +5V analog

input voltage ranges. Figure 2 shows the typical input cir-

cuit. Overvoltage protection circuitry at the analog input

provides ±16.5V fault protection for the bipolar input

devices and ±6.0V fault protection for the unipolar input

device. This fault protection circuit limits the current going

into or out of the device to less than 50mA, providing an

added layer of protection from momentary overvoltage or

undervoltage conditions at the analog input.

Figure 2. Typical Input Circuit

BIAS

MAX1319

MAX1323

MAX1327

______________________________________________________________________________________

1pF

PAR

INPUT RANGE (V)

Input Range and Protection

0 TO +5

5pF

±10

±5

Input Bandwidth

R1 (kΩ)

13.33

3.33

6.67

14-Bit, Parallel-Interface ADCs

R2 (kΩ)

5.00

2.86

2.35

526ksps, Single-Channel,

During shutdown, the analog and digital circuits in the

device power down and the device draws less than

100µA from AV

Select shutdown mode using the SHDN input. Set

SHDN high to enter shutdown mode. After coming out

of shutdown, allow the 1ms wake-up before making the

first conversion. When using an external clock, apply at

least 20 clock cycles with CONVST high before making

the first conversion. When using internal clock mode,

wait at least 2µs before making the first conversion.

These devices provide an internal clock of 10MHz

(typ). Alternatively, an external clock can be used.

Internal clock mode frees the microprocessor from the

burden of running the ADC conversion clock. For inter-

nal clock operation, connect INTCLK/EXTCLK to AV

and connect CLK to DGND.

For external clock operation, connect INTCLK/EXTCLK

to AGND and connect an external clock source to CLK.

Note that INTCLK/EXTCLK is referenced to the analog

power supply, AV

be up to 15MHz, with a duty cycle between 30% and

70%. Clock frequencies of 100kHz and lower can be

used, but the droop in the T/H circuits reduces linearity.

Most applications require an input buffer to achieve 14-

bit accuracy. Although slew rate and bandwidth are

important, the most critical specification is settling time.

The sampling requires a relatively brief sampling inter-

val of 150ns. At the beginning of the acquisition, the

internal sampling capacitor array connects to the

amplifier output, causing some output disturbance.

Ensure the amplifier is capable of settling to at least 14-

bit accuracy during this interval. Use a low-noise, low-

distortion, wideband amplifier (such as the MAX4330 or

MAX4265), which settles quickly and is stable with the

ADC’s capacitive load (in parallel with any bypass

capacitors on the analog inputs).

, and less than 100µA from DV

. The external clock frequency can

Selecting an Input Buffer

Power-Saving Modes

Shutdown Mode

Clock Modes

External Clock

Internal Clock

MAX1323ECM-T Maxim Integrated, MAX1323ECM-T Datasheet - Page 11

MAX1323ECM-T

Related parts for MAX1323ECM-T