MAX152EVKIT-DIP Maxim Integrated Products, MAX152EVKIT-DIP Datasheet - Page 8

MAX152EVKIT-DIP

Manufacturer Part Number

MAX152EVKIT-DIP

Description

EVALUATION KIT FOR MAX152/153

Manufacturer

Maxim Integrated Products

Datasheets

1.MAX152CWP.pdf (12 pages)

2.MAX152EVKIT-DIP.pdf (8 pages)

Specifications of MAX152EVKIT-DIP

Number Of Adc's

Number Of Bits

Sampling Rate (per Second)

400k

Data Interface

Parallel

Inputs Per Adc

1 Single Ended

Input Range

±VREF

Power (typ) @ Conditions

4.5mW @ 400kSPS

Voltage Supply Source

Dual ±

Operating Temperature

0°C ~ 70°C

Utilized Ic / Part

MAX152, MAX153

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

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A minimum acquisition time (t P ) is required from INT

going low to the start of another conversion (WR going

low).

Options for reading data from the converter include the

following:

The µP waits for the INT output to go low before read-

ing the data (Figure 4). INT goes low after the rising

edge of WR, indicating that the conversion is complete

and the result is available in the output latch. With CS

low, data outputs D0-D7 can be accessed by pulling

RD low. INT is then reset by the rising edge of CS or

RD.

An external method of controlling the conversion time is

shown in Figure 5. The internally generated delay

t INTL varies slightly with temperature and supply volt-

age, and can be overridden with RD to achieve the

fastest conversion time. RD is brought low after the ris-

ing edge of WR, but before INT goes low. This com-

pletes the conversion and enables the output buffers

(D0-D7) that contain the conversion result. INT also

goes low after the falling edge of RD and is reset on the

rising edge of RD or CS. The total conversion time is

therefore: t CWR = t WR (600ns) + t RD (800ns) + t ACC1

(400ns) = 1800ns.

Besides the two standard WR-RD mode options, stand-

alone operation can be achieved by connecting CS

and RD low (Figure 6). A conversion is initiated by

pulling WR low. Output data can be read by either

edge of the next WR pulse.

+3V, 8-Bit ADC with 1µA Power-Down

Figure 6. Stand-Alone Mode Timing (

Fastest Conversion: Reading Before Delay

D0-D7

_______________________________________________________________________________________

INT

OLD DATA

t WR

t IHWR

t INTL

Stand-Alone Operation

Using Internal Delay

t P

NEW DATA

t ID

= 0) (MODE = 1)

Figure 7a. Power Supply as Reference

Figure 7b. External Reference, +2.5V Full Scale

Figure 7c. Input Not Referenced to GND

Figure 7d. An N-channel MOSFET switches off the reference

load during power-down.

*CURRENT PATH MUST STILL

EXIST FROM V IN - TO GND.

+3V

0.1µF

PWRDN

4.7

µF

+3V

0.1µF

+3V

4.7µF

0.1

µF

LM10

4.7µF

V IN-

MAX872

V IN +

V IN -

MTD3055EL

V IN +

V IN -

1.2V

2.2µF

+2.5V

0.1µF

V IN +

0.1

µF

V IN

GND

V DD

VREF+

VREF-

V DD

VREF+

VREF-

PWRDN

V DD

VREF+

MAX152

GND

MAX152

0.1µF

V IN

GND

V DD

VREF+

VREF-

V IN

MAX152

MAX152EVKIT-DIP Maxim Integrated Products, MAX152EVKIT-DIP Datasheet - Page 8

MAX152EVKIT-DIP

Specifications of MAX152EVKIT-DIP

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