Maxim MAX12527 Manuel D’Utilisation
General Description
The MAX12527 is a dual 3.3V, 12-bit analog-to-digital
converter (ADC) featuring fully differential wideband
track-and-hold (T/H) inputs, driving internal quantizers.
The MAX12527 is optimized for low power, small size,
and high dynamic performance in intermediate frequen-
cy (IF) and baseband sampling applications. This dual
ADC operates from a single 3.3V supply, consuming
only 620mW while delivering a typical 69.8dB signal-to-
noise ratio (SNR) performance at a 175MHz input fre-
quency. The T/H input stages accept single-ended or
differential inputs up to 400MHz. In addition to low oper-
ating power, the MAX12527 features a 166µW power-
down mode to conserve power during idle periods.
converter (ADC) featuring fully differential wideband
track-and-hold (T/H) inputs, driving internal quantizers.
The MAX12527 is optimized for low power, small size,
and high dynamic performance in intermediate frequen-
cy (IF) and baseband sampling applications. This dual
ADC operates from a single 3.3V supply, consuming
only 620mW while delivering a typical 69.8dB signal-to-
noise ratio (SNR) performance at a 175MHz input fre-
quency. The T/H input stages accept single-ended or
differential inputs up to 400MHz. In addition to low oper-
ating power, the MAX12527 features a 166µW power-
down mode to conserve power during idle periods.
A flexible reference structure allows the MAX12527 to
use the internal 2.048V bandgap reference or accept
an externally applied reference and allows the refer-
ence to be shared between the two ADCs. The refer-
ence structure allows the full-scale analog input range
to be adjusted from ±0.35V to ±1.15V. The MAX12527
provides a common-mode reference to simplify design
and reduce external component count in differential
analog input circuits.
use the internal 2.048V bandgap reference or accept
an externally applied reference and allows the refer-
ence to be shared between the two ADCs. The refer-
ence structure allows the full-scale analog input range
to be adjusted from ±0.35V to ±1.15V. The MAX12527
provides a common-mode reference to simplify design
and reduce external component count in differential
analog input circuits.
The MAX12527 supports either a single-ended or differ-
ential input clock. User-selectable divide-by-two (DIV2)
and divide-by-four (DIV4) modes allow for design flexibil-
ity and help eliminate the negative effects of clock jitter.
Wide variations in the clock duty cycle are compensated
with the ADC’s internal duty-cycle equalizer (DCE).
ential input clock. User-selectable divide-by-two (DIV2)
and divide-by-four (DIV4) modes allow for design flexibil-
ity and help eliminate the negative effects of clock jitter.
Wide variations in the clock duty cycle are compensated
with the ADC’s internal duty-cycle equalizer (DCE).
The MAX12527 features two parallel, 12-bit-wide,
CMOS-compatible outputs. The digital output format is
pin-selectable to be either two’s complement or Gray
code. A separate power-supply input for the digital out-
puts accepts a 1.7V to 3.6V voltage for flexible interfac-
ing with various logic levels. The MAX12527 is available
in a 10mm x 10mm x 0.8mm, 68-pin thin QFN package
with exposed paddle (EP), and is specified for the
extended (-40
CMOS-compatible outputs. The digital output format is
pin-selectable to be either two’s complement or Gray
code. A separate power-supply input for the digital out-
puts accepts a 1.7V to 3.6V voltage for flexible interfac-
ing with various logic levels. The MAX12527 is available
in a 10mm x 10mm x 0.8mm, 68-pin thin QFN package
with exposed paddle (EP), and is specified for the
extended (-40
°C to +85°C) temperature range.
For a 14-bit, pin-compatible version of this ADC, refer to
the MAX12557 data sheet.
the MAX12557 data sheet.
Applications
IF and Baseband Communication Receivers
Cellular, LMDS, Point-to-Point Microwave,
MMDS, HFC, WLAN
I/Q Receivers
Ultrasound and Medical Imaging
Portable Instrumentation
Digital Set-Top Boxes
Low-Power Data Acquisition
Features
♦ Direct IF Sampling Up to 400MHz
♦ Excellent Dynamic Performance
♦ Excellent Dynamic Performance
70.4dB/69.8dB SNR at f
IN
= 70MHz/175MHz
84.4dBc/80.2dBc SFDR at f
IN
= 70MHz/175MHz
♦ 3.3V Low Power Operation
647mW (Differential Clock Mode)
620mW (Single-Ended Clock Mode)
620mW (Single-Ended Clock Mode)
♦ Fully Differential or Single-Ended Analog Input
♦ Adjustable Differential Analog Input Voltage
♦ 750MHz Input Bandwidth
♦ Adjustable, Internal or External, Shared Reference
♦ Differential or Single-Ended Clock
♦ Accepts 25% to 75% Clock Duty Cycle
♦ User-Selectable DIV2 and DIV4 Clock Modes
♦ Power-Down Mode
♦ CMOS Outputs in Two’s Complement or Gray
♦ Adjustable Differential Analog Input Voltage
♦ 750MHz Input Bandwidth
♦ Adjustable, Internal or External, Shared Reference
♦ Differential or Single-Ended Clock
♦ Accepts 25% to 75% Clock Duty Cycle
♦ User-Selectable DIV2 and DIV4 Clock Modes
♦ Power-Down Mode
♦ CMOS Outputs in Two’s Complement or Gray
Code
♦ Out-of-Range and Data-Valid Indicators
♦ Small, 68-Pin Thin QFN Package
♦ 14-Bit Compatible Version Available (MAX12557)
♦ Evaluation Kit Available (Order MAX12527 EV Kit)
♦ Small, 68-Pin Thin QFN Package
♦ 14-Bit Compatible Version Available (MAX12557)
♦ Evaluation Kit Available (Order MAX12527 EV Kit)
MAX12527
Dual, 65Msps, 12-Bit, IF/Baseband ADC
________________________________________________________________ Maxim Integrated Products
1
Ordering Information
19-3543; Rev 0; 2/05
For pricing, delivery, and ordering information, please contact Maxim/Dallas Direct! at
1-888-629-4642, or visit Maxim’s website at www.maxim-ic.com.
1-888-629-4642, or visit Maxim’s website at www.maxim-ic.com.
EVALUATION KIT
AVAILABLE
PART
TEMP RANGE
PIN-PACKAGE
MAX12527ETK
-40
°C to +85°C
68 Thin QFN-EP*
(10mm x 10mm x 0.8mm)
(10mm x 10mm x 0.8mm)
Pin Configuration appears at end of data sheet.
*
EP = Exposed paddle.
PART
SAMPLING RATE
(Msps)
RESOLUTION
(Bits)
MAX12557
65
14
MAX12527
65
12
Selector Guide