MAX12527 Datasheet, PDF(14/28 Page) Maxim Integrated Products

English

English German Russian Spanish Italian Polish Chinese Japanese Korean French Portuguese	Language :

MAX12527 Datasheet, PDF (14/28 Pages) Maxim Integrated Products – Dual, 65Msps, 12-Bit, IF/Baseband ADC

◁

Dual, 65Msps, 12-Bit, IF/Baseband ADC

Pin Description (continued)

NAME

FUNCTION

Shared Reference Digital Input.

SHREF = VDD: Shared reference enabled.

SHREF SHREF = GND: Shared reference disabled.

When sharing the reference, externally connect REFAP and REFBP together to ensure that VREFAP

equals VREFBP. Similarly, when sharing the reference, externally connect REFAN to REFBN together to

ensure that VREFAN = VREFBN.

Internal Reference Voltage Output. The REFOUT output voltage is 2.048V and REFOUT can deliver 1mA.

For internal reference operation, connect REFOUT directly to REFIN or use a resistive divider from

REFOUT REFOUT to set the voltage at REFIN. Bypass REFOUT to GND with a â¥0.1ÂµF capacitor.

For external reference operation, REFOUT is not required and must be bypassed to GND with a â¥0.1ÂµF

capacitor.

Single-Ended Reference Analog Input.

For internal reference and buffered external reference operation, apply a 0.7V to 2.3V DC reference

REFIN

voltage to REFIN. Bypass REFIN to GND with a 4.7ÂµF capacitor. Within its specified operating voltage,

REFIN has a >50Mâ¦ input impedance, and the differential reference voltage (VREF_P - VREF_N) is

generated from REFIN. For unbuffered external reference operation, connect REFIN to GND. In this

mode REF_P, REF_N, and COM_ are high-impedance inputs that accept the external reference voltages.

Exposed Paddle. EP is internally connected to GND. Externally connect EP to GND to achieve specified

dynamic performance.

MAX12527

FLASH

ADC

+Î£

DAC

IN_P

STAGE 10

IN_N

STAGE 1

STAGE 2

STAGE 9

END OF PIPELINE

DIGITAL ERROR CORRECTION

D0_ THROUGH D11_

Figure 1. Pipeline ArchitectureâStage Blocks

Detailed Description

The MAX12527 uses a 10-stage, fully differential,

pipelined architecture (Figure 1) that allows for high-

speed conversion while minimizing power consump-

tion. Samples taken at the inputs move progressively

through the pipeline stages every half clock cycle.

From input to output the total latency is 8 clock cycles.

Each pipeline converter stage converts its input voltage

to a digital output code. At every stage, except the last,

the error between the input voltage and the digital out-

put code is multiplied and passed along to the next

pipeline stage. Digital error correction compensates for

ADC comparator offsets in each pipeline stage and

ensures no missing codes. Figure 2 shows the

MAX12527 functional diagram.

14 ______________________________________________________________________________________

▷