MAXIM MAX107 Technical data

General Description
The MAX107 is a dual, 6-bit, analog-to-digital converter (ADC) designed to allow fast and precise digitizing of in­phase (I) and quadrature (Q) baseband signals. The MAX107 converts the analog signals of both I and Q components to digital outputs at 400Msps while achiev­ing a signal-to-noise ratio (SNR) of typically 37dB with an input frequency of 125MHz, and an integral nonlin­earity (INL) and differential nonlinearity (DNL) of ±0.25 LSB. The MAX107 analog input preamplifiers feature a 400MHz, -0.5dB, and a 1.5GHz, -3dB analog input bandwidth. Matching channel-to-channel performance is typically 0.04dB gain, 0.1LSB offset, and 0.2 degrees phase. Dynamic performance is 36.7dB signal-to-noise plus distortion (SINAD) with a 125MHz analog input sig­nal and a sampling speed of 400MHz. A fully differential comparator design and encoding circuits reduce out-of­sequence errors, and ensure excellent metastable per­formance of only one error per 10
16
clock cycles.
In addition, the MAX107 provides LVDS digital outputs with an internal 6:12 demultiplexer that reduces the out­put data rate to one-half the sample clock rate. Data is output in two’s complement format. The MAX107 oper­ates from a +5V analog supply and the LVDS output ports operate at +3.3V. The data converter’s typical power dissipation is 2.6W. The device is packaged in an 80-pin, TQFP package with exposed paddle, and is specified for the extended (-40°C to +85°C) tempera­ture range. For a higher-speed, 800Msps version of the MAX107, please refer to the MAX105 data sheet.
Applications
VSAT Receivers
WLANs
Test Instrumentation
Communications Systems
Features
Two Matched 6-Bit, 400Msps ADCs
Excellent Dynamic Performance
36.7dB SINAD at f
IN
125MHz and
f
CLK
400MHz
Typical INL and DNL: ±0.25LSB
Channel-to-Channel Phase Matching: ±0.2°
Channel-to-Channel Gain Matching: ±0.04dB
6:12 Demultiplexer reduces the Data Rates to
200MHz
Low Error Rate: 10
16
Metastable States at
400Msps
LVDS Digital Outputs in Two’s Complement
Format
MAX107
Dual, 6-Bit, 400Msps ADC with On-Chip,
Wideband Input Amplifier
________________________________________________________________ Maxim Integrated Products 1
Block Diagram
19-2007; Rev 0; 5/01
Ordering Information
Pin Configuration appears at end of data sheet.
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.
查询MAX107供应商
PART TEMP. RANGE PIN-PACKAGE
MAX107ECS -40°C to +85°C 80-Pin TQFP-EP
I
PRIMARY
PORT
I
AUXILIARY
PORT
I ADC
Q ADC
MAX107
Q
PRIMARY
PORT
Q
AUXILIARY
PORT
REF
MAX107
Dual, 6-Bit, 400Msps ADC with On-Chip, Wideband Input Amplifier
2 _______________________________________________________________________________________
ABSOLUTE MAXIMUM RATINGS
Stresses beyond those listed under “Absolute Maximum Ratings” may cause permanent damage to the device. These are stress ratings only, and functional operation of the device at these or any other conditions beyond those indicated in the operational sections of the specifications is not implied. Exposure to absolute maximum rating conditions for extended periods may affect device reliability.
AVCC, AVCCI, AVCCQ and AVCCR to AGND............-0.3V to +6V
OV
CC
I and OVCCQ to OGND...................................-0.3V to +4V
AGND to OGND ................................................... -0.3V to +0.3V
P0I± to P5I± and A0I± to A5I±
DREADY+, DREADY- to OGNDI ..............-0.3V to OV
CC
I+0.3V
P0Q± to P5Q±, A0Q± to A5Q±
DOR+ and DOR- to OGNDQ .................-0.3V to OV
CC
Q+0.3V
REF to AGNDR...........................................-0.3V to AV
CC
R+0.3V
Differential Voltage Between INI+ and INI- ....................-2V, +2V
Differential Voltage Between INQ+ and INQ-.................-2V, +2V
Differential Voltage Between CLK+ and CLK- ...............-2V, +2V
Maximum Current Into Any Pin ...........................................50mA
Continuous Power Dissipation (T
A
= +70°C)
80-Pin TQFP (derate 44mW/°C above +70°C)..................3.5W
Operating Temperature Range
MAX107ECS .....................................................-40°C to +85°C
Junction Temperature......................................................+150°C
Storage Temperature Range .............................-60°C to +150°C
Lead temperature (soldering, 10s) ..................................+300°C
ELECTRICAL CHARACTERISTICS
(AVCC= AVCCI = AVCCQ = AVCCR = +5V, OVCCI = OVCCQ = +3.3V, AGND = AGNDI = AGNDQ = AGNDR = 0, OGNDI = OGNDQ = 0, f
CLK
= 401.408MHz, CL = 1µF to AGND at REF, RL= 100±1% applied to digital LVDS outputs, TA= T
MIN
to T
MAX
, unless
otherwise noted. Typical values are at T
A
= +25°C)
DC ACCURACY
Resolution RES 6 Bits Integral Nonlinearity (Note 1) INL -1 ±0.2 1 LSB
Differential Nonlinearity (Note 1)
Offset Voltage V O ffset M atchi ng Betw een AD C s OM (Note 2) -0.5 ±0.1 0.5 LSB
ANALOG INPUTS (INI+, INI-, INQ+, INQ-)
Input Open-Circuit Voltage V
Input Open-Circuit Voltage Matching
Common Mode Input Voltage Range (Note 3)
Full-Scale Analog Input Voltage Range (Note 4)
Input Resistance R
Input Capacitance C
Input Resistance Temperature Coefficient
Full-Power Analog Input BW FPBW
REFERENCE OUTPUT
Reference Output Resistance R
Reference Output Voltage V
PARAMETER SYMBOL CONDITIONS MIN TYP MAX UNITS
DNL No missing codes guaranteed -1 ±0.25 1 LSB
(Note 2) -1 ±0.25 1 LSB
- V
(V
INI+
IN-
Signal + Offset w.r.t. AGND 1.85 3.05 V
IN
Referenced to AGNDR 5
I
SOURCE
= 500µA 2.45 2.50 2.55 V
AOC
V
V
FSR
TCR
REF
REF
OS
CM
IN
IN
-0.5dB
) - (V
INQ+
- V
) ±7.5 mV
INQ-
2.4 2.5 2.6 V
0.76 0.8 0.84 Vp-p
1.7 2 k
1.5 pF
150 ppm/°C
400 MHz
MAX107
Dual, 6-Bit, 400Msps ADC with On-Chip,
Wideband Input Amplifier
_______________________________________________________________________________________ 3
ELECTRICAL CHARACTERISTICS (continued)
(AVCC= AVCCI = AVCCQ = AVCCR = +5V, OVCCI = OVCCQ = +3.3V, AGND = AGNDI = AGNDQ = AGNDR = 0, OGNDI = OGNDQ = 0, f
CLK
= 401.408MHz, CL = 1µF to AGND at REF, RL= 100±1% applied to digital LVDS outputs, TA= T
MIN
to T
MAX
, unless
otherwise noted. Typical values are at T
A
= +25°C)
)
CLOCK INPUTS (CLK+, CLK-)
Clock Input Resistance R
Clock Input Resistance Temperature Coefficient
Minimum Clock Input Amplitude
LVDS OUTPUTS (P0I± TO P5I±, P0Q± TO P5Q±, A0I± TO A5I±, A0Q± TO A5Q±, DREADY+, DREADY-, DOR+, DOR-)
Differential Output Voltage V C hang e i n M ag ni tud e of V
Betw een “0 and 1 S tates
Steady-State Common Mode Output Voltage
Change in Magnitude of V Between “0” and “1” States
Differential Output Resistance 80 160
Output Current
DYNAMIC SPECIFICATION
Effective Number of Bits (Note 8)
Signal-to-Noise Ratio (Notes 10, 11)
Total Harmonic Distortion (Note 11)
Spurious-Free Dynamic Range SFDR
PARAMETER SYMBOL CONDITIONS MIN TYP MAX UNITS
CLK
TCR
CLK
CLK+ and CLK- to AGND 5 k
150 ppm/°C
500 mVp-p
247 400 mV
OD
OD
∆V
±25 mV
OD
OC
V
OC(SS
∆V
±25 mV
OC
1.125 1.375 V
Short output together 2.5
Short to OGNDI = OGNDQ 25
Differential 5.4 5.9
Single-ended 5.9
Differential 5.75
Differential 35 37
Single-ended 37
Differential 36.6
Differential -49.5 -42
Single-ended -49.5
Differential -44.5
Differential 43 51
Single-ended 51
Differential 45.5
ENOB
SNR
THD
f
= 124.999MHz at
IN
-0.5dB FS (Note 9)
= 200.067MHz at
f
IN
-0.5dB FS
f
= 124.999MHz at
IN
-0.5dB FS (Note 9)
= 200.067MHz at
f
IN
-0.5dB FS
f
= 124.999MHz at
IN
-0.5dB FS (Note 9)
= 200.067MHz at
f
IN
-0.5dB FS
f
= 124.999MHz at
IN
-0.5dB FS (Note 9)
f
= 200.067MHz at
IN
-0.5dB FS
mA
Bits
dB
dBc
dB
MAX107
Dual, 6-Bit, 400Msps ADC with On-Chip, Wideband Input Amplifier
4 _______________________________________________________________________________________
ELECTRICAL CHARACTERISTICS (continued)
(AVCC= AVCCI = AVCCQ = AVCCR = +5V, OVCCI = OVCCQ = +3.3V, AGND = AGNDI = AGNDQ = AGNDR = 0, OGNDI = OGNDQ = 0, f
CLK
= 401.408MHz, CL = 1µF to AGND at REF, RL= 100±1% applied to digital LVDS outputs, TA= T
MIN
to T
MAX
, unless
otherwise noted. Typical values are at T
A
= +25°C)
Signal-to-Noise Plus Distortion Ratio
Two-Tone Intermodulation TTIMD
Crosstalk Between ADCs XTLK
Gain Match Between ADCs GM (Note 12) -0.3 ±0.04 +0.3 dB Phase Match Between ADCs PM (Note 12) -2 ±0.2 +2 deg
Metastable Error Rate Less than 1 in 10
POWER REQUIREMENTS
Analog Supply Voltage AV
Digital Supply Voltage OV
Analog Supply Current I
Output Supply Current OI
Analog Power Dissipation P
C om m on- M od e Rej ecti on Rati o CMRR V
Power-Supply Rejection Ratio PSRR
TIMING CHARACTERISTICS
Maximum Sample Rate f
Clock Pulse Width Low t
Clock Pulse Width High t
Aperture Delay t
Aperture Jitter t
CLK-to-DREADY Propagation Delay
DREADY-to-DATA Propagation Delay
PARAMETER SYMBOL CONDITIONS MIN TYP MAX UNITS
SINAD
CC_
CC_
CC
CC
DISS
MAX
PWL
PWH
AD
AJ
t
PD1
t
PD2
f
= 124.999MHz at
IN
-0.5dB FS (Note 9)
f
= 200.067MHz at
IN
-0.5dB FS
f
= 100.009MHz, f
IN1
-7dBFS
f
= 200.0180MHz, f
INI
at -0.5dB FS
AV
= AVCCI = AVCCQ = AVCCR5 ±5% V
CC
OV
I
OI
CC
CC
CC
= AI
I = OV
= OI
Q 3.3 ±10% V
CC
R + AI
CC
CC
I + OI
CC
Differential 35 36.7
Single-ended 36.7
Differential 36
= 102.067MHz at
IN2
= 210.0140MHz
INQ
CC
I + AI
Q + AI
CC
Q 400 510 mA
CC
-55 dBc
-70 dB
250 320 mA
2.6 W
= V
IN_+
AV
CC
+4.75V to +5.25V (Note 7)
= ±0.1V (Note 6) 40 60 dB
IN_-
= AV
CC
I = AV
CC
Q = AV
CC
R =
40 57 dB
400 Msps
1.25 ns
1.25 ns
100 ps
1.5 ps
(Note 13) 1.5 ns
(Notes 5, 13) 0 120 300 ps
16
dB
Clock
Cycles
RMS
MAX107
Dual, 6-Bit, 400Msps ADC with On-Chip,
Wideband Input Amplifier
_______________________________________________________________________________________ 5
Note 1: INL and DNL is measured using a sine-histogram method. Note 2: Input offset is the voltage required to cause a transition between codes 0 and -1. Note 3: Numbers provided are for DC-coupled case. The user has the choice of AC-coupling, in which case, the DC input voltage
level does not matter.
Note 4: The peak-to-peak input voltage required, causing a full-scale digitized output when using a trigonometric curve-fitting algo
rithm (e.g. FFT).
Note 5: Guaranteed by design and characterization. Note 6: Common-mode rejection ratio is defined as the ratio of the change in the offset voltage to the change in the common-mode
voltage expressed in dB.
Note 7: Measured with analog power supplies tied to the same potential. Note 8: Effective number of bits (ENOB) is computed from a curve-fit referenced to the theoretical full-scale range. Note 9: The clock and input frequencies are chosen so that there are 2041 cycles in an 8,192-long record. Note 10: Signal-to-noise-ratio (SNR) is measured both with the other channel idling and converting an out-of-phase signal.
The worst case number is presented. Harmonic distortion components two through five are excluded from the noise.
Note 11: Harmonic distortion components two through five are included in the total harmonic distortion specification. Note 12: Both I and Q inputs are effectively tied together (e.g. driven by power splitter). Signal amplitude is -0.5dB FS at an input
frequency of f
IN
= 124.999 MHz.
Note 13: Measured with a differential probe, 1pF capacitance.
ELECTRICAL CHARACTERISTICS (continued)
(AVCC= AVCCI = AVCCQ = AVCCR = +5V, OVCCI = OVCCQ = +3.3V, AGND = AGNDI = AGNDQ = AGNDR = 0, OGNDI = OGNDQ = 0, f
CLK
= 401.408MHz, CL = 1µF to AGND at REF, RL= 100±1% applied to digital LVDS outputs, TA= T
MIN
to T
MAX
, unless
otherwise noted. Typical values are at T
A
= +25°C)
DREADY Duty Cycle (Notes 5, 13) 47 53 %
LVDS Output Rise-Time t
LVDS Output Fall-Time t
LVDS Differential Skew t
DREADY Rise-Time t
DREADY Fall-Time t
Primary Port Pipeline Delay t
Auxiliary Port Pipeline Delay t
PARAMETER SYMBOL CONDITIONS MIN TYP MAX UNITS
RDATA
FDATA
SKEW1
RDREADY
FDREADY
PDP
PDA
20% to 80% (Notes 5, 13) 200 500 ps
20% to 80% (Notes 5, 13) 200 500 ps
Any differential pair <65
Any tw o LV D S outp ut si g nal s excep t D RE AD Y <100
20% to 80% (Notes 5, 13) 200 500 ps
20% to 80% (Notes 5, 13) 200 500 ps
5
6
ps
Clock
Cycles
Clock
Cycles
MAX107
Dual, 6-Bit, 400Msps ADC with On-Chip, Wideband Input Amplifier
6 _______________________________________________________________________________________
Typical Operating Characteristics
(AVCC= AVCCI = AVCCQ = AVCCR = +5V, OVCCI = OVCCQ = +3.3V, AGND = AGNDI = AGNDQ = AGNDR = 0, OGNDI = OGNDQ = 0, f
CLK
= 401.408MHz, differential input at -0.5dB FS, CL = 1µF to AGND at REF, RL= 100±1% applied to digital LVDS outputs, TA=
T
MIN
to T
MAX
, unless otherwise noted. Typical values are at TA= +25°C)
-100
-70
-80
-90
-60
-50
-40
-30
-20
-10
0
04020 60 80 100
8192-POINT FFT,
DIFFERENTIAL INPUT
MAX107 toc01
ANALOG INPUT FREQUENCY (MHz)
AMPLITUDE (dB FS)
fIN = 50.029MHz A
IN
= -0.5dB FS
-100
-70
-80
-90
-60
-50
-40
-30
-20
-10
0
08040 120 160 200
8192-POINT FFT,
DIFFERENTIAL INPUT
MAX107 toc02
ANALOG INPUT FREQUENCY (MHz)
AMPLITUDE (dB FS)
fIN = 124.999MHz A
IN
= -0.5dB FS
-100
-70
-80
-90
-60
-50
-40
-30
-20
-10
0
0 240
8192-POINT FFT,
DIFFERENTIAL INPUT
MAX107 toc03
ANALOG INPUT FREQUENCY (MHz)
AMPLITUDE (dB FS)
fIN = 200.067MHz A
IN
= -0.5dB FS
60 120 180
-100
-70
-80
-90
-60
-50
-40
-30
-20
-10
0
08040 120 160 200
TWO-TONE IMD (8192-POINT RECORD),
DIFFERENTIAL INPUT
MAX107 toc04
ANALOG INPUT FREQUENCY (MHz)
AMPLITUDE (dB FS)
f
IN1
= 100.009MHz
f
IN2
= 102.067MHz
f
IN2
f
IN1
40
0
10M 1G 10G
SNR vs. ANALOG INPUT FREQUENCY,
DIFFERENTIAL INPUT
10
5
15
20
25
30
35
MAX107 toc05
ANALOG INPUT FREQUENCY (Hz)
AMPLITUDE (dB)
100M
-6dB FS
-12dB FS
-1dB FS
40
0
10M 1G 10G
SINAD vs. ANALOG INPUT FREQUENCY,
DIFFERENTIAL INPUT
10
5
15
20
25
30
35
MAX107 toc06
ANALOG INPUT FREQUENCY (Hz)
AMPLITUDE (dB)
100M
-12dB FS
-6dB FS
-1dB FS
-20
-60 10M 1G 10G
THD vs. ANALOG INPUT FREQUENCY,
DIFFERENTIAL INPUT
-50
-55
-45
-40
-35
-30
-25
MAX107 toc07
ANALOG INPUT FREQUENCY (Hz)
AMPLITUDE (dB)
100M
-12dB FS
-1dB FS
-6dB FS
55
10
10M 10G1G100M
SFDR vs. ANALOG INPUT FREQUENCY,
DIFFERENTIAL INPUT
25
15
45
35
60
30
20
50
40
MAX107 toc08
ANALOG INPUT FREQUENCY (Hz)
AMPLITUDE (dB)
-12dB FS
-1dB FS
-6dB FS
-4 10M 10G1G100M
FULL-POWER INPUT BANDWIDTH
SINGLE-ENDED INPUT
1
-2
-3
0
-1
MAX107 toc09
ANALOG INPUT FREQUENCY (Hz)
GAIN (dB)
MAX107
Dual, 6-Bit, 400Msps ADC with On-Chip,
Wideband Input Amplifier
_______________________________________________________________________________________ 7
Typical Operating Characteristics (continued)
(AVCC= AVCCI = AVCCQ = AVCCR = +5V, OVCCI = OVCCQ = +3.3V, AGND = AGNDI = AGNDQ = AGNDR = 0, OGNDI = OGNDQ = 0, f
CLK
= 401.408MHz, differential input at -0.5dB FS, CL = 1µF to AGND at REF, RL= 100±1% applied to digital LVDS outputs, TA=
T
MIN
to T
MAX
, unless otherwise noted. Typical values are at TA= +25°C)
SNR vs. ANALOG INPUT POWER,
DIFFERENTIAL INPUT
40
f
= 124.9756MHz
IN
36
32
SNR (dB)
28
24
-10 -8 -7 -6 -5-9 -4 -3 -2 -1 0 ANALOG INPUT POWER (dB FS)
SFDR vs. ANALOG INPUT POWER,
DIFFERENTIAL INPUT
54
f
= 124.9756MHz
IN
52
50
48
SFDR (dB)
46
44
42
MAX107 toc10
MAX107 toc13
SINAD vs. ANALOG INPUT POWER,
DIFFERENTIAL INPUT
40
f
= 124.9756MHz
IN
36
32
SINAD (dB)
28
24
-10 -8 -7 -6 -5-9 -4 -3 -2 -1 0 ANALOG INPUT POWER (dB FS)
SNR vs. TEMPERATURE
45
f
= 124.9756MHz
IN
41
37
SNR (dB)
33
29
MAX107 toc11
MAX107 toc14
THD vs. ANALOG INPUT POWER,
DIFFERENTIAL INPUT
-38
-42
-46
THD (dB)
-50
-54
f
= 124.9756MHz
IN
-10 -8 -7 -6 -5-9 -4 -3 -2 -1 0 ANALOG INPUT POWER (dB FS)
SINAD vs. TEMPERATURE
42
f
= 124.9756MHz
IN
40
38
SINAD (dB)
36
34
MAX107 toc12
MAX107 toc15
40
-10 -6-8 -4 -2-9 -5-7 -3 -1 0 ANALOG INPUT POWER (dB FS)
THD vs. TEMPERATURE
-42
f
= 124.9756MHz
IN
-46
-50
THD (dB)
-54
-58
-40 10-15 35 60 85
TEMPERATURE (°C)
MAX107 toc16
25
-40 10-15 35 60 85
TEMPERATURE (°C)
SFDR vs. TEMPERATURE
60
f
= 124.9756MHz
IN
56
52
SFDR (dB)
48
44
40
-40 10-15 35 60 85
TEMPERATURE (°C)
MAX107 toc17
32
-40 10-15 35 60 85
TEMPERATURE (°C)
SNR vs. CLOCK FREQUENCY,
DIFFERENTIAL INPUT (-1dB FS)
40
f
= 202.346MHz
IN
38
36
34
AMPLITUDE (dB)
32
30
400 600500 700 800 900
CLOCK FREQUENCY (MHz)
MAX107 toc18
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