ZHCSCG7B January   2014  – May 2014 DAC37J82 , DAC38J82

PRODUCTION DATA.  

  1. 特性
  2. 应用范围
  3. 说明
  4. 修订历史记录
  5. Pin Configuration and Functions
  6. Specifications
    1. 6.1  Absolute Maximum Ratings
    2. 6.2  Handling Ratings
    3. 6.3  Recommended Operating Conditions
    4. 6.4  Thermal Information
    5. 6.5  DC Electrical Characteristics
    6. 6.6  Digital Electrical Characteristics
    7. 6.7  AC Electrical Characteristics
    8. 6.8  Timing Requirements
    9. 6.9  Switching Characteristics
    10. 6.10 Typical Characteristics
  7. Detailed Description
    1. 7.1 Overview
    2. 7.2 Functional Block Diagram
    3. 7.3 Feature Description
      1. 7.3.1  Serdes Input
      2. 7.3.2  Serdes Rate
      3. 7.3.3  Serdes PLL
      4. 7.3.4  Serdes Equalizer
      5. 7.3.5  JESD204B Descrambler
      6. 7.3.6  JESD204B Frame Assembly
      7. 7.3.7  Serial Peripheral Interface (SPI)
      8. 7.3.8  Multi-Device Synchronization
      9. 7.3.9  Input Multiplexer
      10. 7.3.10 FIR Filters
      11. 7.3.11 Full Complex Mixer
      12. 7.3.12 Coarse Mixer
      13. 7.3.13 Dithering
      14. 7.3.14 Complex Summation
      15. 7.3.15 Quadrature Modulation Correction (QMC)
        1. 7.3.15.1 Gain and Phase Correction
        2. 7.3.15.2 Offset Correction
      16. 7.3.16 Group Delay Correction Block
        1. 7.3.16.1 Fine Fractional Delay FIR Filter
        2. 7.3.16.2 Coarse Fractional Delay FIR Filter
      17. 7.3.17 Output Multiplexer
      18. 7.3.18 Power Measurement And Power Amplifier Protection
      19. 7.3.19 Serdes Test Modes
      20. 7.3.20 Error Counter
      21. 7.3.21 Eye Scan
      22. 7.3.22 JESD204B Pattern Test
      23. 7.3.23 Temperature Sensor
      24. 7.3.24 Alarm Monitoring
      25. 7.3.25 LVPECL Inputs
      26. 7.3.26 CMOS Digital Inputs
      27. 7.3.27 Reference Operation
      28. 7.3.28 Analog Outputs
      29. 7.3.29 DAC Transfer Function
    4. 7.4 Device Functional Modes
      1. 7.4.1 Clocking Modes
        1. 7.4.1.1 PLL Bypass Mode
        2. 7.4.1.2 PLL Mode
      2. 7.4.2 PRBS Test Mode
    5. 7.5 Register Map
      1. 7.5.1 Register Descriptions
  8. Applications and Implementation
    1. 8.1 Application Information
    2. 8.2 Typical Applications
      1. 8.2.1 Low-IF Wideband LTE Transmitter
        1. 8.2.1.1 Design Requirements
        2. 8.2.1.2 Detailed Design Procedure
          1. 8.2.1.2.1 Data Input Rate
          2. 8.2.1.2.2 Intermediate Frequency
          3. 8.2.1.2.3 Interpolation
          4. 8.2.1.2.4 DAC PLL Setup
          5. 8.2.1.2.5 Serdes Lanes
        3. 8.2.1.3 Application Performance Plots
      2. 8.2.2 Zero-IF Wideband Transmitter
        1. 8.2.2.1 Design Requirements
        2. 8.2.2.2 Detailed Design Procedure
          1. 8.2.2.2.1 Data Input Rate
          2. 8.2.2.2.2 Interpolation
          3. 8.2.2.2.3 Serdes Lanes
          4. 8.2.2.2.4 LO Feedthrough and Sideband Correction
        3. 8.2.2.3 Application Performance Plots
    3. 8.3 Initialization Set Up
  9. Power Supply Recommendations
  10. 10Layout
    1. 10.1 Layout Guidelines
    2. 10.2 Layout Examples
  11. 11器件和文档支持
    1. 11.1 相关链接
    2. 11.2 Trademarks
    3. 11.3 Electrostatic Discharge Caution
    4. 11.4 术语表
  12. 12机械封装和可订购信息

封装选项

机械数据 (封装 | 引脚)
散热焊盘机械数据 (封装 | 引脚)
订购信息

6 Specifications

6.1 Absolute Maximum Ratings

over operating free-air temperature range (unless otherwise noted)(1)
MIN MAX UNIT
Supply voltage(2) VDDDAC09, VDDDIG09 –0.3 1.3 V
VDDCLK09 –0.3 1.3 V
VDDT09 –0.3 1.3 V
VDDR18, VDDIO18, VDDS18, VQPS18 –0.3 2.45 V
VDDAPLL18, VDDAREF18 –0.3 2.45 V
VDDADAC33 –0.3 4.0 V
Pin voltage(2) RX[7..0]P/N –0.5 V VDDT09 + 0.5 V V
SDENB, SCLK, SDIO, SDO, TXENA, ALARM, RESETB, SLEEP, TMS, TCLK, TDI, TDO, TRSTB, TESTMODE, SYNC_N_AB, SYNC_N_CD –0.5 V VDDIO18 + 0.5 V V
DACCLKP/N, SYSREFP/N –0.5 V VDDAPLL18 + 0.5 V V
SYNCBP/N –0.5 V VDDS18 + 0.5 V V
LPF –0.5 V VDDAPLL18 + 0.5 V V
IOUTAP/N, IOUTBP/N, IOUTCP/N, IOUTDP/N –0.5 V 1.0 V V
RBIAS, EXTIO, ATEST –0.5 V VDDAREF18 + 0.5 V V
IFORCE, VSENSE –0.5 V VDDDIG09 + 0.5 V V
AMUX1, AMUX0 –0.5 V VDDT09 + 0.5 V V
Peak input current (any input) 20 mA
Peak total input current (all inputs) –30 mA
Absolute maximum junction temperature TJ 150 °C
Operating free-air temperature range, TA: DAC37J82/DAC38J82 –40 85 °C
(1) Stresses beyond those listed under absolute maximum ratings may cause permanent damage to the device. These are stress ratings only and functional operation of these or any other conditions beyond those indicated under “recommended operating conditions” is not implied. Exposure to absolute-maximum-rated conditions for extended periods may affect device reliability.
(2) Measured with respect to GND.

6.2 Handling Ratings

MIN MAX UNIT
Tstg Storage temperature range –65 150 °C

6.3 Recommended Operating Conditions

MIN NOM MAX UNIT
TJ Recommended operating junction temperature(1) 105 °C
Maximum rated operating junction temperature 125 °C
TA Recommended free-air temperature -40 25 85 °C
(1) Prolonged use at this junction temperature may increase the device failure-in-time (FIT) rate.

6.4 Thermal Information

THERMAL CONDUCTIVITY(1) DAC3xJ82 UNIT
AAV (144 PINS)
RθJA Theta junction-to-ambient (still air) 31.4 °C/W
RθJB Theta junction-to-board 12.6
RθJC Theta junction-to-case, top 1.8
ψJT Psi junction-to-top of package 0.2
ψJB Psi junction-to-bottom of package 12
(1) Air flow or heat sinking reduces θJA and may be required for sustained operation at 85° and maximum operating conditions.

6.5 DC Electrical Characteristics

Typical values at TA = 25°C, full temperature range is TMIN = -40°C to TMAX = 85°C, nominal supplies, unless otherwise noted.
PARAMETER TEST CONDITIONS DAC37J82 DAC38J82 UNIT
MIN TYP MAX MIN TYP MAX
Resolution 16 16 Bits
DC ACCURACY
DNL Differential nonlinearity 1 LSB = IOUTFS/216 ±4 ±4 LSB
INL Integral nonlinearity ±6 ±6 LSB
ANALOG OUTPUT
Coarse gain linearity ±0.04 ±0.04 LSB
Offset error Mid code offset ±0.001 ±0.001 %FSR
Gain error With external reference ±2 ±2 %FSR
With internal reference ±2 ±2
Gain mismatch With internal reference ±2 ±2 %FSR
Full scale output current 20 30 20 30 mA
Output compliance range –0.5 0.6 –0.5 0.6 V
Output resistance 300 300
Output capacitance 5 5 pF
REFERENCE OUTPUT
VREF Reference output voltage 0.9 0.9 V
Reference output current(1) 100 100 nA
REFERENCE INPUT
VEXTIO Input voltage range External reference mode 0.1 0.9 1 0.1 0.9 1 V
Input resistance 1 1
Input capacitance 50 50 pF
TEMPERATURE COEFFICIENTS
Offset drift ±1 ±1 Ppm/°C
Gain drift With external reference ±15 ±15 ppm/°C
With internal reference ±30 ±30
Reference voltage drift ±8 ±8 ppm/°C
POWER SUPPLY
VDDADAC33 3.15 3.3 3.45 3.15 3.3 3.45 V
VDDAPLL18, VDDAREF18, VDDS18, VQPS18, VDDR18 1.71 1.8 1.89 1.71 1.8 1.89 V
VDDIO18 1.71 1.8 1.89 1.71 1.8 1.89 V
VDDDIG09, VDDDAC09, VDDCLK09, VDDT09 0.85 0.9 0.95 0.85 0.9 0.95 V
PSRR Power Supply Rejection Ratio DC tested ±0.2 ±0.2 %FSR/V
POWER CONSUMPTION
I(VDDADAC33) Analog supply current MODE 1:(DAC38J82)
fDAC=2.46GSPS, 2x interpolation,
NCO on, QMC on, inverse sinc on,
GDC off, PAP off, PLL on, LMF=421,
SerDes rate = 12.3GSPS, 20mA FS output,
IF=150MHz.
- 64 80 mA
I(VDDDIG09) Digital supply current - 628 800
I(VDDDAC09) DAC supply current - 13 25
I(VDDCLK09) Clock supply current - 86 120
I(VDDT09) SerDes core supply current - 168 250
I(VDDR18) SerDes analog supply current - 18 35
I(VDD18) Other 1.8V supply current - 53 80
P Power dissipation - 1144 1290(2) mW
I(VDDADAC33) Analog supply current MODE 2: (DAC37J82)
fDAC=1.6GSPS, 2x interpolation,
NCO on, QMC on, invsinc on,
GDC off, PAP off, PLL on, LMF=421,
SerDes rate = 8GSPS,
20mA FS output, IF=150MHz.
64 64 mA
I(VDDDIG09) Digital supply current 418 418
I(VDDDAC09) DAC supply current 10 10
I(VDDCLK09) Clock supply current 57 57
I(VDDT09) SerDes core supply current 139 139
I(VDDR18) SerDes analog supply current 12 12
I(VDD18) Other 1.8V supply current 50 50
P Power dissipation 884 884 mW
I(VDDADAC33) Analog supply current MODE 3:
fDAC=1.47456GSPS, 2x interpolation,
NCO on, QMC off, invsinc off, GDC off,
PAP off, PLL off, LMF=421,
SerDes rate = 7.3728GSPS,
20mA FS output, IF=150MHz.
64 64 mA
I(VDDDIG09) Digital supply current 363 363
I(VDDDAC09) DAC supply current 10 10
I(VDDCLK09) Clock supply current 50 50
I(VDDT09) SerDes core supply current 135 135
I(VDDR18) SerDes analog supply current 12 12
I(VDD18) Other 1.8V supply current 30 30
P Power dissipation 789 789 mW
I(VDDADAC33) Analog supply current MODE 4:
fDAC=1.47456GSPS, 4x interpolation,
NCO on, QMC off, invsinc off,
GDC off, PAP off, PLL off,
LMF=222,
SerDes rate = 7.3728GSPS,
20mA FS output, IF=150MHz.
64 64 mA
I(VDDDIG09) Digital supply current 312 312
I(VDDDAC09) DAC supply current 10 10
I(VDDCLK09) Clock supply current 50 50
I(VDDT09) SerDes core supply current 76 76
I(VDDR18) SerDes analog supply current 12 12
I(VDD18) Other 1.8V supply current 30 30
P Power dissipation 690 690 mW
I(VDDADAC33) Analog supply current MODE 5:
fDAC=1.47456GSPS, x4,
NCO off, QMC off, invsinc off,
GDC off, PAP off,
PLL off, LMF=222,
SerDes rate = 7.3728GSPS,
DAC output in sleep mode.
13 13 mA
I(VDDDIG09) Digital supply current 263 263
I(VDDDAC09) DAC supply current 8 8
I(VDDCLK09) Clock supply current 50 50
I(VDDT09) SerDes core supply current 76 76
I(VDDR18) SerDes analog supply current 12 12
I(VDD18) Other 1.8V supply current 26 26
P Power dissipation 469 469 mW
I(VDDADAC33) Analog supply current MODE 6:
fDAC=1000MSPS, 2x interpolation,
NCO off, QMC off, invsinc off,
GDC off, PAP off, PLL on,
LMF=222, SerDes rate = 10GSPS,
20mA FS output, IF=150MHz.
64 64 mA
I(VDDDIG09) Digital supply current 257 257
I(VDDDAC09) DAC supply current 8 8
I(VDDCLK09) Clock supply current 36 36
I(VDDT09) SerDes core supply current 85 85
I(VDDR18) SerDes analog supply current 15 15
I(VDD18) Other 1.8V supply current 50 50
P Power dissipation 676 676 mW
I(VDDADAC33) Analog supply current MODE 7:
fDAC=1000MSPS, 2x interpolation,
NCO off, QMC off invsinc off,
GDC off,
PAP off, PLL off, LMF=222,
SerDes rate = 10GSPS,
20mA FS output, IF=150MHz.
64 64 mA
I(VDDDIG09) Digital supply current 256 256
I(VDDDAC09) DAC supply current 8 8
I(VDDCLK09) Clock supply current 35 35
I(VDDT09) SerDes core supply current 85 85
I(VDDR18) SerDes analog supply current 15 15
I(VDD18) Other 1.8V supply current 29 29
P Power dissipation 636 636 mW
I(VDDADAC33) Analog supply current MODE 8:
fDAC=625MSPS, 2x interpolation,
NCO off, QMC off, invsinc off,
GDC off,
PAP off, PLL off, LMF=421,
SerDes rate = 3.125GSPS,
20mA FS output, IF=20MHz.
64 64 mA
I(VDDDIG09) Digital supply current 195 195
I(VDDDAC09) DAC supply current 4 4
I(VDDCLK09) Clock supply current 22 22
I(VDDT09) SerDes core supply current 119 119
I(VDDR18) SerDes analog supply current 11 11
I(VDD18) Other 1.8V supply current 25 25
P Power dissipation 582 582 mW
I(VDDADAC33) Analog supply current MODE 9:
fDAC=1.23GSPS, no interpolation,
NCO off, QMC off, invsinc off, GDC off,
PAP off, PLL off, LMF=421,
SerDes rate = 12.3GSPS,
20mA FS output, IF=150MHz;
64 64 mA
I(VDDDIG09) Digital supply current 311 311
I(VDDDAC09) DAC supply current 10 10
I(VDDCLK09) Clock supply current 42 42
I(VDDT09) SerDes core supply current 165 165
I(VDDR18) SerDes analog supply current 18 18
I(VDD18) Other 1.8V supply current 29 29
P Power dissipation 771 771 mW
I(VDDADAC33) Analog supply current MODE 10:
Power down mode, no clock,
DAC in sleep mode,
SerDes in sleep mode
5 5 mA
I(VDDDIG09) Digital supply current 76 76
I(VDDDAC09) DAC supply current 1 1
I(VDDCLK09) Clock supply current 1 1
I(VDDT09) SerDes core supply current 9 9
I(VDDR18) SerDes analog supply current 0 0
I(VDD18) Other 1.8V supply current 10 10
P Power dissipation 112 112 mW
(1) Use an external buffer amplifier with high impedance input to drive any external load.
(2) The MAX power limit is set separately which is NOT equal to the power consumption when all of the power supplies are at the MAX current.

6.6 Digital Electrical Characteristics

Typical values at TA = 25°C, full temperature range is TMIN = –40°C to TMAX = 85°C, nominal supplies, unless otherwise noted.
PARAMETER TEST CONDITIONS DAC37J82 DAC38J82 UNIT
MIN TYP MAX MIN TYP MAX
CML SERDES INPUTS: RX[7:0]P/N
VDIFF Receiver input amplitude 50 1200 50 1200 mV
VCOM Input common mode (TERM=111) 600 600 mV
Input common mode (TERM=001) 700 700
Input common mode (TERM=100) 0 0
Input common mode (TERM=101) 250 250
ZDIFF Internal differential termination 85 100 115 85 100 115 Ω
fDATA Serdes bit rate 0.78125 12.5 0.78125 12.5 Gbps
LVPECL INPUTS: SYSREFP/N
VCOM Input common mode voltage 0.5 0.5 V
VIDPP Differential input peak-to-peak voltage 400 800 400 800 mV
ZT Internal termination 100 100 Ω
CL Input capacitance 2 2 pF
LVPECL INPUTS: DACCLKP/N
VCOM Input common mode voltage 0.5 0.5 V
VIDPP Differential input peak-to-peak voltage 400 800 400 800 mV
ZT Internal termination 100 100 Ω
CL Input capacitance 2 2 pF
Duty cycle 40% 60% 40% 60%
fDACCLK DACCLKP/N Input Frequency 1.6 2.5 GHz
LVDS OUTPUTS: SYNCBP/N
VCOM Output common mode voltage 1.2 1.2 V
ZT Internal termination 100 100 Ω
VOD Differential output voltage swing 0.5 0.5 V
CMOS INTERFACE: SDENB, SCLK, SDIO, SDO, TXENA, ALARM, RESETB, SLEEP, TMS, TCLK, TDI, TDO, TRSTB, TESTMODE, SYNC_N_AB, SYNC_N_CD
VIH High-level input voltage 0.7 x VDDIO18 0.7 x VDDIO18 V
VIL Low-level input voltage 0.3 x VDDIO18 0.3 x VDDIO18 V
IIH High-level input current -40 40 -40 40 µA
IIL Low-level input current -40 40 -40 40 µA
CI CMOS Input capacitance 2 2 pF
VOH ALARM, SDO, SDIO, TDO Iload =–100 μA VDDIO18 – 0.2 VDDIO18 – 0.2 V
Iload = –2 mA 0.8 x VDDIO18 0.8 x VDDIO18
VOL ALARM, SDO, SDIO, TDO Iload = 100 μA 0.2 0.2 V
Iload = 2 mA 0.5 0.5
PHASE LOCKED LOOP
PLL/VCO operating frequency pll_vcosel = '1', pll_vco = '010001'(17), pll_vcoitune = '10', VCO Frequency = 3932.16MHz Assured Assured
pll_vcosel = '1', pll_vco = '011111'(31), pll_vcoitune = '10', VCO Frequency = 4120MHz Assured Assured
pll_vcosel = '1', pll_vco = '110010'(50), pll_vcoitune = '10', VCO Frequency = 4423.68MHz Assured Assured
pll_vcosel = '0', pll_vco = '001101'(13), pll_vcoitune = '11', VCO Frequency = 4608MHz Assured Assured
pll_vcosel = '0', pll_vco = '011010'(26), pll_vcoitune = '11', VCO Frequency = 4800MHz Assured Assured
pll_vcosel = '0', pll_vco = '100001'(33), pll_vcoitune = '11', VCO Frequency = 4915.2MHz Assured Assured
pll_vcosel = '0', pll_vco = '100110'(38), pll_vcoitune = '11', VCO Frequency = 5000MHz Assured Assured

6.7 AC Electrical Characteristics

Typical values at TA = 25°C, full temperature range is TMIN = –40°C to TMAX = 85°C, nominal supplies, unless otherwise noted.
PARAMETER TEST CONDITIONS / COMMENTS DAC37J82 DAC38J82 UNIT
MIN TYP MAX MIN TYP MAX
ANALOG OUTPUT(1)
fDAC Maximum DAC rate 4x or higher interpolation 1600 2500 MSPS
2x interpolation 1600 2460
1x interpolation 1230 1230
Digital latency
(F=2, 2x interpolation)
No interpolation, FIFO off, Mixer off, QMC off, Inverse sinc off 11 11 DAC clock cycles
2x Interpolation 83 83
4x Interpolation 211 211
8x Interpolation 483 483
16x Interpolation 1051 1051
NCO 48 48
QMC 32 32
Inverse Sinc 36 36
PA Protection (pap_dlylen_sel = "0") 68 68
Dithering 0 0
Complex Summation 0 0
Coarse Fractional Delay 51 51
Fine Fractional Delay 52 52
AC PERFORMANCE(2)
SFDR Spurious free dynamic
(0 to fDAC/2)
fDAC = 2.5 GSPS, fOUT = 20 MHz, 0 dBFS - 79 dBc
fDAC = 2.5 GSPS, fOUT = 70 MHz, 0dBFS - 78
fDAC = 2.5 GSPS, fOUT = 150 MHz, 0 dBFS - 72
fDAC = 2.5 GSPS, fOUT = 230 MHz, 0dBFS - 67
fDAC = 2.5 GSPS, fOUT = 20 MHz, -12 dBFS - 79
fDAC = 2.5 GSPS, fOUT = 70 MHz, –12dBFS - 75
fDAC = 2.5 GSPS, fOUT = 150 MHz, -12 dBFS - 70
fDAC = 2.5 GSPS, fOUT = 230 MHz, –12dBFS - 65
fDAC = 1.6 GSPS, fOUT = 20 MHz, 0 dBFS 81 81
fDAC = 1.6 GSPS, fOUT = 70 MHz, 0 dBFS 77 77
fDAC = 1.6 GSPS, fOUT = 150 MHz, 0 dBFS 72 72
fDAC = 1.6 GSPS, fOUT = 230 MHz, 0 dBFS 68 68
fDAC = 1.6 GSPS, fOUT = 20 MHz, -12 dBFS 76 76
fDAC = 1.6 GSPS, fOUT = 70 MHz, –12 dBFS 72 72
fDAC = 1.6 GSPS, fOUT = 150 MHz, -12 dBFS 67 67
fDAC = 1.6 GSPS, fOUT = 230 MHz, –12 dBFS 64 64
IMD3 Third-order two-tone
intermodulation distortion
Each tone at –6dBFS
fDAC = 2.5 GSPS, fOUT = 70 ± 0.5 MHz - 83 dBc
fDAC = 2.5 GSPS, fOUT = 150 ± 0.5 MHz - 75
fDAC = 2.5 GSPS, fOUT = 230 ± 0.5 MHz - 70
fDAC = 2.0 GSPS, fOUT = 70 ± 0.5 MHz - 86
fDAC = 2.0 GSPS, fOUT = 150 ± 0.5 MHz - 78
fDAC = 2.0 GSPS, fOUT = 230 ± 0.5 MHz - 73
fDAC = 1.6 GSPS, fOUT = 70 ± 0.5 MHz 83 83
fDAC = 1.6 GSPS, fOUT = 150 ± 0.5 MHz 73 73
fDAC = 1.6 GSPS, fOUT = 230 ± 0.5 MHz 66 66
NSD Noise spectral density(2)
Tone at –6dBFS
fDAC = 2.5 GSPS, fOUT = 70 MHz - -161 dBFS/Hz
fDAC = 2.5 GSPS, fOUT = 150 MHz - –159
fDAC = 2.5 GSPS, fOUT = 230 MHz - -157
fDAC = 2.0 GSPS, fOUT = 70 MHz - -161
fDAC = 2.0 GSPS, fOUT = 150 MHz - -160
fDAC = 2.0 GSPS, fOUT = 230 MHz - -158
fDAC = 1.6 GSPS, fOUT = 70 MHz -161 -161
fDAC = 1.6 GSPS, fOUT = 150 MHz -159 -159
fDAC = 1.6 GSPS, fOUT = 230 MHz -157 -157
ACLR(3) Adjacent channel leakage ratio, single carrier fDAC = 2.4576 GSPS, fOUT = 70 MHz - 82 dBc
fDAC = 2.4576 GSPS, fOUT = 150 MHz - 80
fDAC = 2.4576 GSPS, fOUT = 230 MHz - 78
fDAC = 1.96608 GSPS, fOUT = 70 MHz - 82
fDAC = 1.96608 GSPS, fOUT = 150 MHz - 80
fDAC = 1.96608 GSPS, fOUT = 230 MHz - 77
fDAC = 1.47456 GSPS, fOUT = 70 MHz 82 82
fDAC = 1.47456 GSPS, fOUT = 150 MHz 80 80
fDAC = 1.47456 GSPS, fOUT = 230 MHz 76 76
Channel isolation fDAC = 2.5 GSPS, fOUT = 20 MHz - 93 dBc
fDAC = 1.6 GSPS, fOUT = 20 MHz 93 93
(1) Measured single ended into 50 Ω load.
(2) 2:1 transformer output termination, 50 Ω doubly terminated load.
(3) Single carrier, W-CDMA with 3.84 MHz BW, 5-MHz spacing, centered at IF. TESTMODEL 1, 10 ms

6.8 Timing Requirements

Typical values at TA = 25°C, full temperature range is TMIN = –40°C to TMAX = 85°C, nominal supplies, unless otherwise noted.
PARAMETER TEST CONDITIONS DAC37J82 DAC38J82 UNIT
MIN TYP MAX MIN TYP MAX
DIGITAL INPUT TIMING SPECIFICATIONS
TIMING SYSREF INPUT: DACCLKP/N RISING EDGE LATCHING
ts(SYSREF) Setup time, SYSREFP/N valid to rising edge of DACCLKP/N 50 50 ps
th(SYSREF) Hold time, SYSREF/N valid after rising edge of DACCLKP/N 50 50 ps
TIMING SERIAL PORT
ts(SDENB) Setup time, SDENB to rising edge of SCLK 20 20 ns
ts(SDIO) Setup time, SDIO valid to rising edge of SCLK 10 10 ns
th(SDIO) Hold time, SDIO valid to rising edge of SCLK 5 5 ns
t(SCLK) Period of SCLK Register config7 read
(temperature sensor read)
1 1 µs
All other registers 100 100 ns
td(Data) Data output delay after falling edge of SCLK 10 10 ns
tRESET Minimum RESETB pulsewidth 25 25 ns
ANALOG OUTPUT(1)
ts(DAC) Output settling time to 0.1% Transition: Code 0x0000 to 0xFFFF 10 10 ns
Power-up Time DAC wake-up time IOUT current settling to 1% of IOUTFS from deep sleep 90 90 µs
DAC sleep time IOUT current settling to less than 1% of IOUTFS in deep sleep 90 90
(1) Measured single ended into 50 Ω load.

6.9 Switching Characteristics

Typical values at TA = 25°C, full temperature range is TMIN = –40°C to TMAX = 85°C, nominal supplies, unless otherwise noted.
PARAMETER TEST CONDITIONS DAC37J82 DAC38J82 UNIT
MIN TYP MAX MIN TYP MAX
ANALOG OUTPUT(1)
tpd Output propagation delay DAC outputs are updated on the falling edge of DAC clock. Does not include Digital Latency (see below). 2 2 ns
tr(IOUT) Output rise time 10% to 90% 50 50 ps
tf(IOUT) Output fall time 90% to 10% 50 50 ps

6.10 Typical Characteristics

Unless otherwise noted, all plots are at TA = 25°C, nominal supply voltages, fDAC = 2460MSPS, 2x interpolation, 0dBFS digital input, 20mA full scale output current with 2:1 transformer, LMF = 421 and PLL is disabled.
D001_SLASE17.gifFigure 1. Integral Nonlinearity
D003_SLASE17.gifFigure 3. SFDR vs Output Frequency Over Input Scale
D005_SLASE17.gifFigure 5. Third Harmonic Distortion vs Output Frequency Over Input Scale
D007_SLASE17.gif
Figure 7. SFDR vs Output Frequency Over fDAC
D009_SLASE17.gif
fref = fDAC/4, M = 32, N = 8, Prescaler = 2 for PLL On
Figure 9. SFDR vs Output Frequency Over Clocking Options
D011_SLASE17.gif
IF = 150MHz
Figure 11. Single Tone Spectral Plot
D013_SLASE17.gif
A.
Figure 13. IMD3 vs Output Frequency Over Input Scale
D015_SLASE17.gif
Figure 15. IMD3 vs Output Frequency Over fDAC
D017_SLASE17.gif
fref = fDAC/4, M = 32, N = 8, Prescaler = 2 for PLL On
Figure 17. IMD3 vs Output Frequency Over Clocking Options
D019_SLASE17.gif
IF = 150MHz, Tone Spacing = 1MHz
Figure 19. Two-tone Spectral Plot
D021_SLASE17.gif
Figure 21. NSD vs Output Frequency Over Input Scale
D023_SLASE17.gif
Figure 23. NSD vs Output Frequency Over fDAC
D025_SLASE17.gif
fref = fDAC/4, M = 32, N = 8, Prescaler = 2 for PLL On
Figure 25. NSD vs Output Frequency Over Clocking Options
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Single Carrier WCDMA
Figure 27. ACLR (Alternate Channel) vs Output Frequency Over fDAC
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Single Carrier WCDMA; fref = fDAC/4, M = 32, N = 8, Prescaler = 2 for PLL On
Figure 29. ACLR (Alternate Channel) vs Output Frequency Over Clocking Options
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Figure 31. VDDDAC09 Current vs fDAC
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QMC On, CMIX On, NCO On
Figure 33. VDDDIG09 Current vs fDAC
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Figure 35. VDDR18 Current vs fDAC
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Figure 37. 1.8V Supply Current Excluding VDDR18 vs fDAC
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QMC Off, CMIX Off, NCO Off
Figure 39. VDDDIG09 Current vs fDAC Over Interpolation
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QMC On, CMIX On, NCO On
Figure 41. VDDDIG09 Current vs fDAC Over Interpolation
wcdma_1c1_lase17.gif
IF = 70MHz
Figure 43. Single Carrier W-CDMA Test Mode 1
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IF = 230MHz
Figure 45. Single Carrier W-CDMA Test Mode 1
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IF = 150MHz
Figure 47. Four Carrier W-CDMA Test Mode 1
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IF = 70MHz
Figure 49. 10MHz Single Carrier LTE Test Mode 3.1
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IF = 230MHz
Figure 51. 10MHz Single Carrier LTE Test Mode 3.1
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IF = 150MHz
Figure 53. 20MHz Single Carrier LTE Test Mode 3.1
D002_SLASE17.gifFigure 2. Differential Nonlinearity
D004_SLASE17.gifFigure 4. Second Harmonic Distortion vs Output Frequency Over Input Scale
D006_SLASE17.gifFigure 6. SFDR vs Output Frequency Over Interpolation
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Figure 8. SFDR vs Output Frequency Over IoutFS
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IF = 70MHz
Figure 10. Single Tone Spectral Plot
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IF = 230MHz
Figure 12. Single Tone Spectral Plot
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Figure 14. IMD3 vs Output Frequency Over Interpolation
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Figure 16. IMD3 vs Output Frequency Over Output Current IoutFS
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IF = 70MHz, Tone Spacing = 1MHz
Figure 18. Two-tone Spectral Plot
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IF = 230MHz, Tone Spacing = 1MHz
Figure 20. Two-tone Spectral Plot
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Figure 22. NSD vs Output Frequency Over Interpolation
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Figure 24. NSD vs Output Frequency Over Output Current IoutFS
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Single Carrier WCDMA
Figure 26. ACLR (Adjacent Channel) vs Output Frequency Over fDAC
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Single Carrier WCDMA; fref = fDAC/4, M = 32, N = 8, Prescaler = 2 for PLL On
Figure 28. ACLR (Adjacent Channel) vs Output Frequency Over Clocking Options
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Between Channel AB pair and CD pair
Figure 30. Channel Isolation
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Figure 32. VDDCLK09 Current vs fDAC
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Figure 34. VDDT09 Current vs fDAC
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Figure 36. VDDADAC33 Current vs fDAC
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Figure 38. VDDDIG09 Current vs fDAC Over Digital Processing Functions
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QMC Off, CMIX Off, NCO Off
Figure 40. Power Consumption vs fDAC Over Interpolation
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QMC On, CMIX On, NCO On
Figure 42. Power Consumption vs fDAC Over Interpolation
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IF = 150MHz
Figure 44. Single Carrier W-CDMA Test Mode 1
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IF = 70MHz
Figure 46. Four Carrier W-CDMA Test Mode 1
wcdma_4c3_lase17.gif
IF = 230MHz
Figure 48. Four Carrier W-CDMA Test Mode 1
LTE_10M2_lase17.gif
IF = 150MHz
Figure 50. 10MHz Single Carrier LTE Test Mode 3.1
LTE_20M1_lase17.gif
IF = 70MHz
Figure 52. 20MHz Single Carrier LTE Test Mode 3.1
LTE_20M3_lase17.gif
IF = 230MHz
Figure 54. 20MHz Single Carrier LTE Test Mode 3.1