ZHCSQ92B march   2022  – june 2023 AFE7903

PRODUCTION DATA  

  1.   1
  2. 1特性
  3. 2应用
  4. 3说明
  5. 4说明(续)
  6. 5Revision History
  7. 6Specifications
    1. 6.1  Absolute Maximum Ratings
    2. 6.2  ESD Ratings
    3. 6.3  Recommended Operating Conditions
    4. 6.4  Thermal Information
    5. 6.5  Transmitter Electrical Characteristics
    6. 6.6  RF ADC Electrical Characteristics
    7. 6.7  PLL/VCO/Clock Electrical Characteristics
    8. 6.8  Digital Electrical Characteristics
    9. 6.9  Power Supply Electrical Characteristics
    10. 6.10 Timing Requirements
    11. 6.11 Switching Characteristics
    12. 6.12 Typical Characteristics
      1. 6.12.1  RX Typical Characteristics 30 MHz and 400 MHz
      2. 6.12.2  RX Typical Characteristics at 800 MHz
      3. 6.12.3  RX Typical Characteristics 1.75 GHz to 1.9 GHz
      4. 6.12.4  RX Typical Characteristics 2.6 GHz
      5. 6.12.5  RX Typical Characteristics 3.5 GHz
      6. 6.12.6  RX Typical Characteristics 4.9 GHz
      7. 6.12.7  RX Typical Characteristics 6.8 GHz
      8. 6.12.8  TX Typical Characteristics at 30 MHz and 600 MHz
      9. 6.12.9  TX Typical Characteristics at 800 MHz
      10. 6.12.10 TX Typical Characteristics at 1.8 GHz
      11. 6.12.11 TX Typical Characteristics at 2.6 GHz
      12. 6.12.12 TX Typical Characteristics at 3.5 GHz
      13. 6.12.13 TX Typical Characteristics at 4.9 GHz
      14. 6.12.14 TX Typical Characteristics at 7.1 GHz
      15. 6.12.15 PLL and Clock Typical Characteristics
  8. 7Device and Documentation Support
    1. 7.1 接收文档更新通知
    2. 7.2 支持资源
    3. 7.3 Trademarks
    4. 7.4 静电放电警告
    5. 7.5 术语表
  9. 9Mechanical, Packaging, and Orderable Information

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

6.6 RF ADC Electrical Characteristics

Typical values at TA = +25°C, full temperature range is TA,MIN = -40°C to TJ,MAX = +110°C; RX Output Rate =  491.52MSPS and 500MSPS above 6GHz, fADC = 2949.12MSPS below 6GHz and fADC = 3000MSPS above 6GHz; PLL clock mode with fREF = 491.52MHz below 6GHz input frequency and External clock mode with fCLK = 9GHz above 6GHz input frequency; nominal power supplies; DSA Setting =3dB; SerDes rate =24.33Gbps; unless otherwise noted.
PARAMETER TEST CONDITIONS MIN TYP MAX UNIT
ADCRES ADC resolution 14 bits
FRFin RF input frequency range 5 7400 MHz
PFS_CW,min Min Full scale input power, at device pins (1) fIN = 5 MHz, DSA=0dB, fADC = 1500MSPS,  fNCO = 17MHz, Decimate by 48 -0.4 dBm
fIN = 30 MHz, DSA=0dB, fADC = 1500MSPS,  fNCO = 30MHz, Decimate by 24 -2.2 dBm
fIN = 410 MHz, DSA=0dB, fADC = 3000MSPS,  fNCO = 400MHz, Decimate by 12 -2.5 dBm
fIN = 830 MHz, DSA=0dB -2.9 dBm
fIN = 1760 MHz, DSA=0dB -2.8 dBm
fIN = 2610 MHz, DSA=0dB -1.8 dBm
fIN = 3610 MHz, DSA=0dB -0.4 dBm
fIN = 4910 MHz, DSA=0dB 0.1 dBm
PFS_CW,MAX MAX Full scale input power - reliability limited, at device pins fIN = 5 MHz, fADC = 1500MSPS,  fNCO = 17MHz, Decimate by 48 19.7 dBm
fIN = 30 MHz, fADC = 1500MSPS,  fNCO = 30MHz, Decimate by 24 17.8 dBm
fIN = 410 MHz, fADC = 3000MSPS,  fNCO = 400MHz, Decimate by 24 17.6 dBm
fIN = 830 MHz 16.7 dBm
fIN = 1760 MHz 17.0 dBm
fIN = 2610 MHz 18 dBm
fIN = 3610 MHz 18.5 dBm
fIN = 4910 MHz 19.3 dBm
RTERM Input reference impedance 100.0
ATTrange DSA Attenuation range 25.0 dB
ATTstep DSA Attenuation step 0.5 dB
DSA Attenuation step accuracy Delta=Gatt(X)-Gatt(X-1), Fin=3610MHz, after calibration 0.1 dB
DSA Gain Steps Phase accuracy
any 8dB range		 Fin=3610MHz, after calibration 0.9 deg
DSA Gain Steps Phase accuracy
any 8dB range		 Fin=4910MHz, after calibration 1.8 deg
Gflat Gain flatness Measured Over 80MHz BW 0.2 dB
Measured Over 200MHz BW 0.5 dB
Measured Over 400MHz BW 1.1 dB
NSD Noise Density (3)
(small signal = -30dBFS)		 fIN = 5 MHz, DSA = 3dB, fADC = 1500MSPS,  fNCO = 17MHz, Decimate by 48 -147.1 dBFS/Hz
fIN = 30 MHz, DSA = 3dB, fADC = 1500MSPS,  fNCO = 30MHz, Decimate by 24 -150.7 dBFS/Hz
fIN = 410 MHz, DSA = 3dB, fADC = 3000MSPS,  fNCO = 400MHz, Decimate by 24 -155.4 dBFS/Hz
fIN = 830 MHz, DSA = 3dB -156.2 dBFS/Hz
fIN = 1760 MHz, DSA = 3dB -156.0 dBFS/Hz
fIN = 2610 MHz, DSA = 3dB -155.4 dBFS/Hz
fIN = 3610 MHz, DSA = 3dB -155.1 dBFS/Hz
fIN = 4910 MHz, DSA = 3dB -155.1 dBFS/Hz
fIN = 5 MHz, fADC = 1500MSPS,  fNCO = 17MHz, Decimate by 48, 3<=Atten<=22 -147.8 dBFS/Hz
fIN = 30 MHz, fADC = 1500MSPS,  fNCO = 30MHz, Decimate by 24, 3<=Atten<=22 -151.5 dBFS/Hz
fIN = 410 MHz, 3<=Atten<=22, fADC = 3000MSPS,  fNCO = 400MHz, Decimate by 24 -156.6 dBFS/Hz
fIN = 830 MHz, 3<=Atten<=22 -156.0 dBFS/Hz
fIN = 1760 MHz, 3<=Atten<=25 -155.8 dBFS/Hz
fIN = 2610 MHz, 3<=Atten<=25 -155.7 dBFS/Hz
fIN = 3610 MHz, 3<=Atten<=25 -155.4 dBFS/Hz
fIN = 4910 MHz, 3<=Atten<=25 -155.8 dBFS/Hz
NFmin Noise Figure min
DSA Atten=0 - 3dB		 fIN = 5 MHz, fADC = 1500MSPS,  fNCO = 17MHz, Decimate by 48 29.4 dB
fIN = 30 MHz, fADC = 1500MSPS,  fNCO = 30MHz, Decimate by 24 24.5 dB
fIN = 410 MHz, fADC = 3000MSPS,  fNCO = 400MHz, Decimate by 24 19.3 dB
fIN = 830 MHz 19.1 dB
fIN = 1760 MHz 19.0 dB
fIN = 2610 MHz 20.9 dB
fIN = 3610 MHz 22.8 dB
fIN = 4910 MHz 22.4 dB
NF Noise Figure(4)
DSA Atten=4dB		 fIN = 5 MHz, fADC = 1500MSPS,  fNCO = 17MHz, Decimate by 48 30.6 dB
fIN = 30 MHz, fADC = 1500MSPS,  fNCO = 30MHz, Decimate by 24 25.1 dB
fIN = 410 MHz, fADC = 3000MSPS,  fNCO = 400MHz, Decimate by 24 20.1 dB
fIN = 830 MHz 20.0 dB
fIN = 1760 MHz 20.6 dB
fIN = 2610 MHz 21.9 dB
fIN = 3610 MHz 23.5 dB
fIN = 4910 MHz 22.3 dB
NFmax Noise Figure
DSA Atten=20dB		 fIN = 5 MHz, fADC = 1500MSPS,  fNCO = 17MHz, Decimate by 48 45.9 dB
fIN = 30 MHz, fADC = 1500MSPS,  fNCO = 30MHz, Decimate by 24 40.2 dB
fIN = 410 MHz, fADC = 3000MSPS,  fNCO = 400MHz, Decimate by 24 35.0 dB
fIN = 830 MHz 34.7 dB
fIN = 1760 MHz 35.2 dB
fIN = 2610 MHz 36.0 dB
fIN = 3610 MHz 37.3 dB
fIN = 4910 MHz 37.6 dB
IMD3 3rd order intermodulation 2 tones at at fIN ± 10MHz
-7dBFS each tone		 fIN = 30±1 MHz, fADC = 1500MSPS,  fNCO = 30MHz, Decimate by 24 -82 dBc
fIN = 400MHz and 405MHz, fADC = 3000MSPS,  fNCO = 400MHz, Decimate by 24 -75 dBc
fIN = 840 MHz -82 dBc
fIN = 1770 MHz -84 dBc
fIN = 2610 MHz -74 dBc
fIN = 3610 MHz -77 dBc
fIN = 4920 MHz -76 dBc
SFDR Spurious Free Dynamic Range
within output bandwidth, AIN = -3 dBFS		 fIN = 5 MHz, fADC = 1500MSPS,  fNCO = 17MHz, Decimate by 48 78 dBFS
fIN = 30 MHz, fADC = 1500MSPS,  fNCO = 30MHz, Decimate by 24 100 dBFS
fIN = 410 MHz, fADC = 3000MSPS,  fNCO = 400MHz, Decimate by 24 94 dBFS
fIN = 830 MHz 88 dBFS
fIN = 1760 MHz 81 dBFS
fIN = 2610 MHz 88 dBFS
fIN = 3610 MHz 84 dBFS
fIN = 4910 MHz 79 dBFS
HD2 2nd Harmonic Distortion
AIN = -3 dBFS(2)		 fIN = 5 MHz, fADC = 1500MSPS,  fNCO = 17MHz, Decimate by 48 -84 dBFS
fIN = 30 MHz, fADC = 1500MSPS, Bypass Mode (TI only test mode) -91 dBFS
fIN = 410 MHz, fADC = 3000MSPS, Bypass Mode (TI only test mode) -90 dBFS
fIN = 830 MHz -86 dBFS
fIN = 1760 MHz -90 dBFS
fIN = 2610 MHz -88 dBFS
fIN = 3610 MHz -87 dBFS
fIN = 4910 MHz -84 dBFS
HD3 3rd Harmonic Distortion
AIN = -3 dBFS		 fIN = 5 MHz, fADC = 1500MSPS,  fNCO = 17MHz, Decimate by 48 -78 dBFS
fIN = 30 MHz, fADC = 1500MSPS, Bypass Mode (TI only test mode) -96 dBFS
fIN = 410 MHz, fADC = 3000MSPS, Bypass Mode (TI only test mode) -94 dBFS
fIN = 830 MHz -80 dBFS
fIN = 1760 MHz -85 dBFS
fIN = 2610 MHz -86 dBFS
fIN = 3610 MHz -78 dBFS
fIN = 4910 MHz -75 dBFS
HDn, n>3 SFDR excl. HD2 and HD3
AIN = -3 dBFS		 fIN = 5 MHz, fADC = 1500MSPS,  fNCO = 17MHz, Decimate by 48 -94 dBFS
fIN = 30 MHz, fADC = 1500MSPS,  fNCO = 30MHz, Decimate by 24 -94 dBFS
fIN = 410 MHz, fADC = 3000MSPS,  fNCO = 400MHz, Decimate by 24 -94 dBFS
fIN = 830 MHz -88 dBFS
fIN = 1760 MHz -81 dBFS
fIN = 2610 MHz -88 dBFS
fIN = 3610 MHz -84 dBFS
fIN = 4910 MHz -82 dBFS
SFDR Spurious Free Dynamic Range
AIN = -13 dBFS		 fIN = 5 MHz, fADC = 1500MSPS,  fNCO = 17MHz, Decimate by 48 101 dBFS
fIN = 30 MHz, fADC = 1500MSPS,  fNCO = 30MHz, Decimate by 24 105 dBFS
fIN = 410 MHz, fADC = 3000MSPS,  fNCO = 400MHz, Decimate by 24 95 dBFS
fIN = 830 MHz 89 dBFS
fIN = 1760 MHz 89 dBFS
fIN = 2610 MHz 95 dBFS
fIN = 3610 MHz 87 dBFS
fIN = 4910 MHz 90 dBFS
HD2 2nd Harmonic Distortion(2)
AIN = -13 dBFS		 fIN = 5 MHz, fADC = 1500MSPS,  fNCO = 17MHz, Decimate by 48 -104 dBFS
fIN = 30 MHz, fADC = 1500MSPS, Bypass Mode (TI only test mode) -91 dBFS
fIN = 410 MHz, fADC = 3000MSPS, Bypass Mode (TI only test mode) -104 dBFS
fIN = 830 MHz, with board trim -79 dBFS
fIN = 1760 MHz, with board trim -102 dBFS
fIN = 2610 MHz, with board trim -100 dBFS
fIN = 3610 MHz, with board trim -101 dBFS
fIN = 4910 MHz, with board trim -99 dBFS
HD3 3rd Harmonic Distortion
AIN = -13 dBFS		 fIN = 5 MHz, fADC = 1500MSPS,  fNCO = 17MHz, Decimate by 48 -103 dBFS
fIN = 30 MHz, fADC = 1500MSPS, Bypass Mode (TI only test mode) -84 dBFS
fIN = 381 MHz, fADC = 3000MSPS, Bypass Mode (TI only test mode) -91 dBFS
fIN = 830 MHz -95 dBFS
fIN = 1760 MHz -95 dBFS
fIN = 2610 MHz -98 dBFS
fIN = 3610 MHz -97 dBFS
fIN = 4910 MHz -94 dBFS
HDn, n>3 SFDR excl. HD2 and HD3
AIN = -13 dBFS		 fIN = 5 MHz, fADC = 1500MSPS,  fNCO = 17MHz, Decimate by 48 -104 dBFS
fIN = 30 MHz, fADC = 1500MSPS,  fNCO = 30MHz, Decimate by 24 -105 dBFS
fIN = 410 MHz, fADC = 3000MSPS,  fNCO = 400MHz, Decimate by 24 -95 dBFS
fIN = 830 MHz -89 dBFS
fIN = 1760 MHz -89 dBFS
fIN = 2610 MHz -95 dBFS
fIN = 3610 MHz -90 dBFS
fIN = 4910 MHz -90 dBFS
TX-RX Isolation 2TXOUT to 1RXIN
4TXOUT to 3RXIN		 fIN = 5 MHz, fADC = 1500MSPS,  fNCO = 17MHz, Decimate by 48 -105 dB
fIN = 30 MHz, fADC = 1500MSPS,  fNCO = 30MHz, Decimate by 24 -101 dB
fIN = 400 MHz -99 dB
fIN = 830 MHz -86 dB
fIN = 1760 MHz -87 dB
fIN = 2610 MHz -84 dB
fIN = 3610 MHz -82 dB
fIN = 4910 MHz -82 dB
(1) The input fullscale at minimum attenuation can be reduce by adding a digital gain range to the DSA, extending the useful range of the DSA. The noise figure remains constant over the digital gain range.
(2) After HD2 trim on specific printed circuit board.
(3) From DSA = 3dB down to 0dB, NSD increases 1dB per DSA dB
(4) NF increase 1dB per DSA 1dB above DSA = 3dB
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