MAX19708ETM+T Maxim Integrated Products, MAX19708ETM+T Datasheet

IC ANLG FRNT END 48-TQFN

MAX19708ETM+T

Manufacturer Part Number
MAX19708ETM+T
Description
IC ANLG FRNT END 48-TQFN
Manufacturer
Maxim Integrated Products
Datasheet
1.MAX19708ETMT.pdf (37 pages)

Specifications of MAX19708ETM+T

Number Of Bits
10
Number Of Channels
4
Power (watts)
36.9mW
Voltage - Supply, Analog
3V
Voltage - Supply, Digital
3V
Package / Case
48-TQFN Exposed Pad
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
The MAX19708 is an ultra-low-power, mixed-signal ana-
log front-end (AFE) designed for TD-SCDMA handsets
and data cards. Optimized for high dynamic perfor-
mance at ultra-low power, the device integrates a dual
10-bit, 11Msps receive (Rx) ADC; dual 10-bit, 11Msps
transmit (Tx) DAC with TD-SCDMA baseband filters;
three fast-settling 12-bit aux-DAC channels for ancillary
RF front-end control; and a 10-bit, 333ksps housekeep-
ing aux-ADC. The typical operating power in Tx-Rx
FAST mode is 36.9mW at a 5.12MHz clock frequency.
The Rx ADCs feature 55dB SNR and 77.4dBc SFDR at a
1.87MHz input frequency with an 11MHz clock frequen-
cy. The analog I/Q input amplifiers are fully differential
and accept 1.024V
channel matching is ±0.08° phase and ±0.02dB gain.
The Tx DACs with TD-SCDMA lowpass filters feature -3dB
cutoff frequency of 1.32MHz and > 55dB stopband rejec-
tion at f
voltage range is selectable at ±410mV or ±500mV differ-
ential. The output DC common-mode voltage is selec-
table from 0.9V to 1.4V. The I/Q channel offset is
adjustable to optimize radio lineup sideband/carrier sup-
pression. Typical I-Q channel matching is ±0.02dB gain
and ±0.04° phase.
The Rx ADC and Tx DAC share a single, 10-bit parallel,
high-speed digital bus allowing half-duplex operation
for time-division duplex (TDD) applications. A 3-wire
serial interface controls power-management modes, the
aux-DAC channels, and the aux-ADC channels.
The MAX19708 operates on a single +2.7V to +3.3V
analog supply and +1.8V to +3.3V digital I/O supply.
The MAX19708 is specified for the extended (-40°C to
+85°C) temperature range and is available in a 48-pin,
thin QFN package. The Selector Guide at the end of the
data sheet lists other pin-compatible versions in this
AFE family.
*All devices are specified over the -40°C to +85°C operating range.
**EP = Exposed paddle.
+Denotes lead-free package.
19-3764; Rev 0; 8/05
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.
MAX19708ETM
MAX19708ETM+
TD-SCDMA Handsets
TD-SCDMA Data Cards
Portable Communication Equipment
IMAGE
PART*
= 4.32MHz. The analog I-Q full-scale output
________________________________________________________________ Maxim Integrated Products
P-P
48 Thin QFN-EP**
48 Thin QFN-EP**
Ordering Information
PIN-PACKAGE
General Description
full-scale signals. Typical I/Q
Applications
10-Bit, 11Msps, Ultra-Low-Power
PKG CODE
T4877-4
T4877-4
♦ Dual 10-Bit, 11Msps Rx ADC and Dual 10-Bit,
♦ Ultra-Low Power
♦ Integrated TD-SCDMA Filters with > 55dB
♦ Programmable Tx DAC Common-Mode DC Level
♦ Excellent Dynamic Performance
♦ Three 12-Bit, 1µs Aux-DACs
♦ 10-Bit, 333ksps Aux-ADC with 4:1 Input Mux and
♦ Excellent Gain/Phase Match
♦ Multiplexed Parallel Digital I/O
♦ Serial-Interface Control
♦ Versatile Power-Control Circuits
♦ Miniature 48-Pin Thin QFN Package
Functional Diagram and Selector Guide appear at end of
data sheet.
11Msps Tx DAC
Stopband Rejection
and I/Q Offset Trim
Data Averaging
(7mm x 7mm x 0.8mm)
36.9mW at f
19.8mW at f
Low-Current Standby and Shutdown Modes
SNR = 55dB at f
SFDR = 73dBc at f
±0.08° Phase, ±0.02dB Gain (Rx ADC) at
f
Shutdown, Standby, Idle, Tx/Rx Disable
IN
TOP VIEW
REFIN
DAC2
DAC1
REFN
COM
GND
QDN
QDP
V
V
IDN
IDP
= 1.87MHz
DD
DD
37
38
39
40
41
42
43
44
45
46
47
48
Analog Front-End
36 35 34 33 32 31 30 29 28 27 26 25
1
CLK
CLK
2
3
= 5.12MHz, Fast Mode
= 5.12MHz, Slow Mode
EXPOSED PADDLE (GND)
IN
4
= 1.87MHz (Rx ADC)
THIN QFN
OUT
5
MAX19708
6
Pin Configuration
= 620kHz (Tx DAC)
7
8
9 10
11 12
Features
24
23
22
21
20
19
18
17
16
15
14
13
D9
D8
D7
D6
OV
OGND
D5
D4
D3
D2
D1
D0
DD
1

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MAX19708ETM+T Summary of contents

Page 1

... Thin QFN-EP** *All devices are specified over the -40°C to +85°C operating range. **EP = Exposed paddle. +Denotes lead-free package. ________________________________________________________________ Maxim Integrated Products 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. 10-Bit, 11Msps, Ultra-Low-Power ♦ ...

Page 2

Ultra-Low-Power Analog Front-End ABSOLUTE MAXIMUM RATINGS GND OGND ..............................-0.3V to +3.6V GND to OGND.......................................................-0.3V to +0.3V IAP, IAN, QAP, QAN, IDP, IDN, QDP, QDN, DAC1, DAC2, DAC3 to GND .....................-0. ...

Page 3

ELECTRICAL CHARACTERISTICS (continued 3V 1.8V, internal reference (1.024V amplitude = -0.5dBFS, Tx DAC output amplitude = 0dBFS, differential Rx ADC input, differential Tx DAC output 0.33µF, unless otherwise noted. C ...

Page 4

Ultra-Low-Power Analog Front-End ELECTRICAL CHARACTERISTICS (continued 3V 1.8V, internal reference (1.024V amplitude = -0.5dBFS, Tx DAC output amplitude = 0dBFS, differential Rx ADC input, differential Tx DAC output ...

Page 5

ELECTRICAL CHARACTERISTICS (continued 3V 1.8V, internal reference (1.024V amplitude = -0.5dBFS, Tx DAC output amplitude = 0dBFS, differential Rx ADC input, differential Tx DAC output 0.33µF, unless otherwise noted. C ...

Page 6

Ultra-Low-Power Analog Front-End ELECTRICAL CHARACTERISTICS (continued 3V 1.8V, internal reference (1.024V amplitude = -0.5dBFS, Tx DAC output amplitude = 0dBFS, differential Rx ADC input, differential Tx DAC output ...

Page 7

ELECTRICAL CHARACTERISTICS (continued 3V 1.8V, internal reference (1.024V amplitude = -0.5dBFS, Tx DAC output amplitude = 0dBFS, differential Rx ADC input, differential Tx DAC output 0.33µF, unless otherwise noted. C ...

Page 8

Ultra-Low-Power Analog Front-End ELECTRICAL CHARACTERISTICS (continued 3V 1.8V, internal reference (1.024V amplitude = -0.5dBFS, Tx DAC output amplitude = 0dBFS, differential Rx ADC input, differential Tx DAC output ...

Page 9

ELECTRICAL CHARACTERISTICS (continued 3V 1.8V, internal reference (1.024V amplitude = -0.5dBFS, Tx DAC output amplitude = 0dBFS, differential Rx ADC input, differential Tx DAC output 0.33µF, unless otherwise noted. C ...

Page 10

Ultra-Low-Power Analog Front-End ( 1.8V, internal reference (1.024V amplitude = -0.5dBFS, Tx DAC output amplitude = 0dBFS, differential Rx ADC input, differential Tx DAC output 0.33µ ...

Page 11

OV = 1.8V, internal reference (1.024V amplitude = -0.5dBFS, Tx DAC output amplitude = 0dBFS, differential Rx ADC input, differential Tx DAC output 0.33µ +25°C, unless otherwise noted.) COM ...

Page 12

Ultra-Low-Power Analog Front-End ( 1.8V, internal reference (1.024V amplitude = -0.5dBFS, Tx DAC output amplitude = 0dBFS, differential Rx ADC input, differential Tx DAC output 0.33µ ...

Page 13

OV = 1.8V, internal reference (1.024V amplitude = -0.5dBFS, Tx DAC output amplitude = 0dBFS, differential Rx ADC input, differential Tx DAC output 0.33µ +25°C, unless otherwise noted.) COM ...

Page 14

Ultra-Low-Power Analog Front-End ( 1.8V, internal reference (1.024V amplitude = -0.5dBFS, Tx DAC output amplitude = 0dBFS, differential Rx ADC input, differential Tx DAC output 0.33µ ...

Page 15

PIN NAME 10 QAP Channel-QA Positive Analog Input. For single-ended operation, connect signal source to QAP. Digital I/O. Outputs for receive ADC in Rx mode. Inputs for transmit DAC in Tx mode the most 13–18, 21–24 D0–D9 significant ...

Page 16

Ultra-Low-Power Analog Front-End Dual 10-Bit Rx ADC The ADC uses a seven-stage, fully differential, pipelined architecture that allows for high-speed conversion while minimizing power consumption. Samples taken at the inputs move progressively through the pipeline stages every half ...

Page 17

Table 1. Rx ADC Output Codes vs. Input Voltage DIFFERENTIAL INPUT DIFFERENTIAL INPUT (LSB) VOLTAGE V x 512/512 511 (+Full Scale - 1 LSB) REF V x 511/512 510 (+Full Scale - 2 LSB) REF V x 1/512 REF V ...

Page 18

Ultra-Low-Power Analog Front-End CHI CHQ t CLK CLK t t DOQ DOI D0–D9 D0Q D1I D1Q Figure 3. Rx ADC System Timing Diagram Table 2. Tx Path Output Voltage vs. Input Codes (Internal Reference ...

Page 19

OCCUPIED AMPLITUDE CHANNEL 0dB -3dB -15dB -49.3dB -55dB (min) -57.1dB 0.8 1.27 CHANNEL EDGE f C Figure 4. TD-SCDMA Filter Frequency Response quadrature upconverters and the MAX19708. Many RF upconverters require a 0.9V to 1.4V common-mode bias. The MAX19708 common-mode ...

Page 20

Ultra-Low-Power Analog Front-End MAX19708 Tx DAC I-CH Tx DAC Q-CH FULL SCALE = 1.305V V = 1.10V COM ZERO SCALE = 0.895V 0V Figure 5. Tx DAC Common-Mode DC Level at IDN, IDP or QDN, QDP Differential Outputs ...

Page 21

Table 3. MAX19708 Mode Control D11 D10 REGISTER NAME (MSB) 15 E11 = 0 E10 = 0 ENABLE-16 Reserved Reserved Aux-DAC1 1D11 1D10 Aux-DAC2 2D11 2D10 Aux-DAC3 3D11 3D10 IOFFSET — — QOFFSET — — COMSEL — — AD11 = ...

Page 22

Ultra-Low-Power Analog Front-End Table 5. External Tx-Rx Control Using ADDRESS DATA BITS 0011 0100 0000 (16-Bit Mode) or 1000 (8-Bit Mode) 0101 0110 In ENABLE-16 mode, the aux-DACs have independent ...

Page 23

Table 6. Tx-Rx Control Using SPI Commands ADDRESS DATA BITS 1011 1100 0000 (16-Bit Mode) or 1000 (8-Bit Mode) 1101 1110 X = Don’t care. Table 7. Aux-DAC Enable Table (ENABLE-16 Mode) ...

Page 24

Ultra-Low-Power Analog Front-End Table 10. Offset Control Bits for I and Q Channels (IOFFSET or QOFFSET Mode) BITS IO5–IO0 WHEN IN IOFFSET MODE, BITS QO5–QO0 WHEN IN QOFFSET MODE IO5/QO5 IO4/QO4 • ...

Page 25

Tx and Rx cores are always on. To prevent bus contention in these states, the Rx ADC output buffers are tri-stated during Tx and the Tx DAC input bus is tri-stated during Rx. In ...

Page 26

Ultra-Low-Power Analog Front-End Mode-Recovery Timing Figure 8 shows the mode-recovery timing diagram the wakeup time when exiting shutdown, idle, WAKE or standby mode and entering mode the recovery time when switching ...

Page 27

Auxiliary Control DACs The MAX19708 includes three 12-bit aux-DACs (DAC1, DAC2, DAC3) with 1µs settling time for controlling vari- able-gain amplifier (VGA), automatic gain-control (AGC), and automatic frequency-control (AFC) func- tions. The aux-DAC output range is 0.1V to 2.56V. ...

Page 28

Ultra-Low-Power Analog Front-End The conversion requires 12 clock edges (1 for input sampling, 1 for each of the 10 bits, and 1 at the end for loading into the serial output register) to complete one conversion cycle (when ...

Page 29

Table 18. Reference Modes V REFIN Internal Reference Mode. V > 0. with a 0.33µF capacitor. Buffered External Reference Mode. An external 1.024V ±10% reference voltage is applied to REFIN. V 1.024V ±10% internally generated to be ...

Page 30

Ultra-Low-Power Analog Front-End IDP MAX19708 IDN QDP QDN Figure 10. Balun Transformer-Coupled Differential-to-Single- Ended Output Drive for Tx DAC REFP 1kΩ ISO IN 0.1μF 50Ω 22pF 100Ω 1kΩ REFN 0.1μF R ISO 50Ω 100Ω ...

Page 31

R1 600Ω R2 600Ω R3 600Ω Figure 12. Rx ADC DC-Coupled Differential Drive MAX2392 ZIF RECEIVER AGC MAX2507 DIRECT MODULATOR PA DETECT VGA TEMPERATURE MEASURE Figure 13. Typical Application Circuit for TD-SCDMA Radio ______________________________________________________________________________________ 10-Bit, 11Msps, Ultra-Low-Power R4 R5 600Ω ...

Page 32

Ultra-Low-Power Analog Front-End Grounding, Bypassing, and Board Layout The MAX19708 requires high-speed board layout design techniques. Refer to the MAX19708 EV kit data sheet for a board layout reference. Place all bypass capacitors as close to the device ...

Page 33

Ideally, the ADC full-scale transition occurs at 1.5 LSB below full scale. The gain error is the amount of devia- tion between the measured transition point and the ideal transition point with the offset error removed. ADC Dynamic Parameter Definitions ...

Page 34

Ultra-Low-Power Analog Front-End limit the ADC’s performance. The input frequency is then swept up to the point where the amplitude of the digitized conversion result has decreased by 3dB. Note that the T/H performance is usually the limiting ...

Page 35

Ultra-Low-Power V = +2.7V TO +3.3V DD IAP 10-BIT IAN QAP 10-BIT QAN IDP 10-BIT FILTER IDN QDP 10-BIT FILTER QDN PROGRAMMABLE OFFSET/GAIN/CM 12-BIT DAC1 12-BIT DAC2 12-BIT DAC3 ADC1 ADC2 4:1 MUX GND ...

Page 36

Ultra-Low-Power Analog Front-End (The package drawing(s) in this data sheet may not reflect the most current specifications. For the latest package outline information www.maxim-ic.com/packages ______________________________________________________________________________________ k E/2 (NE- DETAIL ...

Page 37

... Maxim cannot assume responsibility for use of any circuitry other than circuitry entirely embodied in a Maxim product. No circuit patent licenses are implied. Maxim reserves the right to change the circuitry and specifications without notice at any time. Maxim Integrated Products, 120 San Gabriel Drive, Sunnyvale, CA 94086 408-737-7600 ____________________ 37 © 2005 Maxim Integrated Products ...

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