ZHCSG95 May 2017 ADC32RF42
PRODUCTION DATA.
MIN | MAX | UNIT | ||
---|---|---|---|---|
Supply voltage range | AVDD19 | –0.3 | 2.1 | V |
AVDD | –0.3 | 1.4 | ||
DVDD | –0.3 | 1.4 | ||
Voltage applied to input pins | INAP, INAM and INBP, INBM | –0.3 | AVDD19 + 0.3 | V |
CLKINP, CLKINM | –0.3 | AVDD + 0.6 | ||
SYSREFP, SYSREFM, SYNCBP, SYNCBM | –0.3 | AVDD + 0.6 | ||
SCLK, SEN, SDIN, RESET, PDN, GPIO1, GPIO2, GPIO3, GPIO4 | –0.2 | AVDD19 + 0.2 | ||
Voltage applied to output pins | –0.3 | 2.2 | V | |
Temperature | Operating free-air, TA | –40 | 85 | °C |
Storage, Tstg | –65 | 150 |
VALUE | UNIT | |||
---|---|---|---|---|
V(ESD) | Electrostatic discharge | Human-body model (HBM), per ANSI/ESDA/JEDEC JS-001(1) | ±1000 | V |
Charged-device model (CDM), per JEDEC specification JESD22-C101(2) | ±500 |
MIN | NOM | MAX | UNIT | ||
---|---|---|---|---|---|
Supply voltage(2) | AVDD19 | 1.8 | 1.9 | 2.0 | V |
AVDD | 1.1 | 1.15 | 1.25 | ||
DVDD | 1.1 | 1.15 | 1.2 | ||
Temperature | Operating free-air, TA | –40 | 85 | °C | |
Operating junction, TJ | 105(1) | 125 |
THERMAL METRIC(1) | ADC32RF42 | UNIT | |
---|---|---|---|
RMP (VQFN) | |||
72 PINS | |||
RθJA | Junction-to-ambient thermal resistance | 21.8 | °C/W |
RθJC(top) | Junction-to-case (top) thermal resistance | 4.4 | °C/W |
RθJB | Junction-to-board thermal resistance | 2.0 | °C/W |
ψJT | Junction-to-top characterization parameter | 0.1 | °C/W |
ψJB | Junction-to-board characterization parameter | 2.0 | °C/W |
RθJC(bot) | Junction-to-case (bottom) thermal resistance | 0.2 | °C/W |
PARAMETER | TEST CONDITIONS | MIN | TYP | MAX | UNIT | |
---|---|---|---|---|---|---|
POWER CONSUMPTION(4) (Dual-Channel Operation, Both Channels A and B are Active; DDC Bypass Mode(3)) | ||||||
IAVDD19 | 1.9-V analog supply current | 14-bit, bypass mode, fS = 1.5 GSPS | 1150 | 1969 | mA | |
IAVDD | 1.15-V analog supply current | 14-bit, bypass mode, fS = 1.5 GSPS | 604 | 1079 | mA | |
IDVDD | 1.15-V digital supply current | 14-bit, bypass mode, fS = 1.5 GSPS | 1000 | 1846 | mA | |
PD | Power dissipation | 14-bit, bypass mode, fS = 1.5 GSPS | 4.03 | 6.95 | W | |
Global power-down power dissipation | 360 | mW | ||||
ANALOG INPUTS | ||||||
Resolution | 14 | Bits | ||||
Differential input full-scale | 1.35 | VPP | ||||
VIC | Input common-mode voltage | 1.2(5) | V | |||
RIN | Input resistance | Differential resistance at dc | 65 | Ω | ||
CIN | Input capacitance | Differential capacitance at dc | 2 | pF | ||
VCM common-mode voltage output | 1.2 | V | ||||
Analog input bandwidth (–3-dB point) |
ADC driven with 50-Ω source | 3200 | MHz | |||
ISOLATION | ||||||
Crosstalk isolation between channel A and channel B(1) | fIN = 100 MHz | 100 | dBc | |||
fIN = 900 MHz | 99 | |||||
fIN = 1800 MHz | 95 | |||||
fIN = 2700 MHz | 86 | |||||
fIN = 3500 MHz | 85 | |||||
CLOCK INPUT(2) | ||||||
Input clock frequency | 750 | 1500 | MHz | |||
Differential (peak-to-peak) input clock amplitude | 0.5 | 1.5 | 2.5 | VPP | ||
Input clock duty cycle | 45% | 50% | 55% | |||
Internal clock biasing | 1.0 | V | ||||
Internal clock termination (differential) | 100 | Ω |
PARAMETER | TEST CONDITIONS | MIN(2) | NOM | MAX | UNIT | ||
---|---|---|---|---|---|---|---|
SNR | Signal-to-noise ratio | fIN = 100 MHz, AOUT = –2 dBFS | 62.8 | dBFS | |||
fIN = 300 MHz, AOUT = –2 dBFS | 62.6 | ||||||
fIN = 950 MHz, AOUT = –2 dBFS | 61.1 | ||||||
fIN = 1200 MHz, AOUT = –2 dBFS | 60.4 | ||||||
fIN = 1350 MHz, AOUT = –2 dBFS | 60.0 | ||||||
fIN = 1850 MHz, AOUT = –2 dBFS | 58.9 | ||||||
fIN = 2100 MHz, AOUT = –2 dBFS | 57.9 | ||||||
NSD | Noise spectral density averaged across the Nyquist zone | fIN = 100 MHz, AOUT = –2 dBFS | 151.6 | dBFS/Hz | |||
fIN = 300 MHz, AOUT = –2 dBFS | 151.4 | ||||||
fIN = 950 MHz, AOUT = –2 dBFS | 149.8 | ||||||
fIN = 1200 MHz, AOUT = –2 dBFS | 149.1 | ||||||
fIN = 1350 MHz, AOUT = –2 dBFS | 148.8 | ||||||
fIN = 1850 MHz, AOUT = –2 dBFS | 147.6 | ||||||
fIN = 2100 MHz, AOUT = –2 dBFS | 146.7 | ||||||
Small-signal SNR | fIN = 950 MHz, AOUT = –40 dBFS | 63.0 | dBFS | ||||
NF(1) | Input noise figure | fIN = 950 MHz, AOUT = –40 dBFS | 27.7 | dB | |||
SINAD | Signal-to-noise and distortion ratio | fIN = 100 MHz, AOUT = –2 dBFS | 61.4 | dBFS | |||
fIN = 300 MHz, AOUT = –2 dBFS | 61.0 | ||||||
fIN = 950 MHz, AOUT = –2 dBFS | 60.9 | ||||||
fIN = 1200 MHz, AOUT = –2 dBFS | 59.9 | ||||||
fIN = 1350 MHz, AOUT = –2 dBFS | 59.2 | ||||||
fIN = 1850 MHz, AOUT = –2 dBFS | 58.2 | ||||||
fIN = 2100 MHz, AOUT = –2 dBFS | 55.8 | ||||||
ENOB | Effective number of bits | fIN = 100 MHz, AOUT = –2 dBFS | 9.9 | Bits | |||
fIN = 300 MHz, AOUT = –2 dBFS | 9.8 | ||||||
fIN = 950 MHz, AOUT = –2 dBFS | 9.8 | ||||||
fIN = 1200 MHz, AOUT = –2 dBFS | 9.6 | ||||||
fIN = 1350 MHz, AOUT = –2 dBFS | 9.5 | ||||||
fIN = 1850 MHz, AOUT = –2 dBFS | 9.4 | ||||||
fIN = 2100 MHz, AOUT = –2 dBFS | 9.0 | ||||||
SFDR | Spurious-free dynamic range | fIN = 100 MHz, AOUT = –2 dBFS | 67 | dBc | |||
fIN = 300 MHz, AOUT = –2 dBFS | 64 | ||||||
fIN = 950 MHz, AOUT = –2 dBFS | 70 | ||||||
fIN = 1200 MHz, AOUT = –2 dBFS | 67 | ||||||
fIN = 1350 MHz, AOUT = –2 dBFS | 66 | ||||||
fIN = 1850 MHz, AOUT = –2 dBFS | 64 | ||||||
fIN = 2100 MHz, AOUT = –2 dBFS | 58 | ||||||
HD2 | Second-order harmonic distortion | fIN = 100 MHz, AOUT = –2 dBFS | 68 | dBc | |||
fIN = 300 MHz, AOUT = –2 dBFS | 64 | ||||||
fIN = 950 MHz, AOUT = –2 dBFS | 72 | ||||||
fIN = 1200 MHz, AOUT = –2 dBFS | 70 | ||||||
fIN = 1350 MHz, AOUT = –2 dBFS | 67 | ||||||
fIN = 1850 MHz, AOUT = –2 dBFS | 64 | ||||||
fIN = 2100 MHz, AOUT = –2 dBFS | 58 | ||||||
HD3 | Third-order harmonic distortion | fIN = 100 MHz, AOUT = –2 dBFS | 67 | dBc | |||
fIN = 300 MHz, AOUT = –2 dBFS | 71 | ||||||
fIN = 950 MHz, AOUT = –2 dBFS | 70 | ||||||
fIN = 1200 MHz, AOUT = –2 dBFS | 67 | ||||||
fIN = 1350 MHz, AOUT = –2 dBFS | 70 | ||||||
fIN = 1850 MHz, AOUT = –2 dBFS | 73 | ||||||
fIN = 2100 MHz, AOUT = –2 dBFS | 66 | ||||||
HD4, HD5 | Fourth- and fifth-order harmonic distortion | fIN = 100 MHz, AOUT = –2 dBFS | 89 | dBc | |||
fIN = 300 MHz, AOUT = –2 dBFS | 84 | ||||||
fIN = 950 MHz, AOUT = –2 dBFS | 85 | ||||||
fIN = 1200 MHz, AOUT = –2 dBFS | 83 | ||||||
fIN = 1350 MHz, AOUT = –2 dBFS | 85 | ||||||
fIN = 1850 MHz, AOUT = –2 dBFS | 83 | ||||||
fIN = 2100 MHz, AOUT = –2 dBFS | 82 | ||||||
IL spur | Interleaving spur: fS / 2 – fIN, |
fIN = 100 MHz, AOUT = –2 dBFS | 91 | dBc | |||
fIN = 300 MHz, AOUT = –2 dBFS | 87 | ||||||
fIN = 950 MHz, AOUT = –2 dBFS | 83 | ||||||
fIN = 1200 MHz, AOUT = –2 dBFS | 82 | ||||||
fIN = 1350 MHz, AOUT = –2 dBFS | 82 | ||||||
fIN = 1850 MHz, AOUT = –2 dBFS | 82 | ||||||
fIN = 2100 MHz, AOUT = –2 dBFS | 80 | ||||||
HD2 IL | Interleaving spur for HD2: fS / 2 – HD2 |
fIN = 100 MHz, AOUT = –2 dBFS | 86 | dBc | |||
fIN = 300 MHz, AOUT = –2 dBFS | 87 | ||||||
fIN = 950 MHz, AOUT = –2 dBFS | 83 | ||||||
fIN = 1200 MHz, AOUT = –2 dBFS | 80 | ||||||
fIN = 1350 MHz, AOUT = –2 dBFS | 79 | ||||||
fIN = 1850 MHz, AOUT = –2 dBFS | 79 | ||||||
fIN = 2100 MHz, AOUT = –2 dBFS | 80 | ||||||
Worst spur | Spurious-free dynamic range (excluding HD2, HD3, HD4, HD5, and interleaving spurs IL and HD2 IL) | fIN = 100 MHz, AOUT = –2 dBFS | 80 | dBc | |||
fIN = 300 MHz, AOUT = –2 dBFS | 82 | ||||||
fIN = 950 MHz, AOUT = –2 dBFS | 80 | ||||||
fIN = 1200 MHz, AOUT = –2 dBFS | 82 | ||||||
fIN = 1350 MHz, AOUT = –2 dBFS | 79 | ||||||
fIN = 1850 MHz, AOUT = –2 dBFS | 80 | ||||||
fIN = 2100 MHz, AOUT = –2 dBFS | 81 | ||||||
IMD3 | Third-order intermodulation distortion | fIN1 = 940 MHz, fIN2 = 960 MHz, AOUT = –8 dBFS (each tone) |
75 | dBFS |
PARAMETER | TEST CONDITIONS | MIN | NOM | MAX | UNIT | |
---|---|---|---|---|---|---|
DIGITAL INPUTS (RESET, SCLK, SEN, SDIN, PDN, GPIO1, GPIO2, GPIO3, GPIO4) | ||||||
VIH | High-level input voltage | 0.8 | V | |||
VIL | Low-level input voltage | 0.4 | V | |||
IIH | High-level input current | 50 | µA | |||
IIL | Low-level input current | –50 | µA | |||
Ci | Input capacitance | 4 | pF | |||
DIGITAL OUTPUTS (SDOUT, GPIO1, GPIO2, GPIO3, GPIO4) | ||||||
VOH | High-level output voltage | AVDD19–0.1 | AVDD19 | V | ||
VOL | Low-level output voltage | 0.1 | V | |||
DIGITAL INPUTS (SYSREFP and SYSREFM; SYNCBP and SYNCBM; Requires External Biasing) | ||||||
VID | Differential input voltage | 350 | 450 | 800 | mVPP | |
VCM | Input common-mode voltage | 1.05 | 1.2 | 1.325 | V | |
DIGITAL OUTPUTS (JESD204B Interface: DA[3:0], DB[3:0], Meets JESD204B LV-0IF-11G-SR Standard) | ||||||
|VOD| | Output differential voltage | 700 | mVPP | |||
|VOCM| | Output common-mode voltage | 450 | mV | |||
Transmitter short-circuit current | Transmitter pins shorted to any voltage between –0.25 V and 1.45 V | –100 | 100 | mA | ||
zos | Single-ended output impedance | 50 | Ω | |||
Co | Output capacitance | Output capacitance inside the device, from either output to ground |
2 | pF |
MIN | NOM | MAX | UNIT | |||
---|---|---|---|---|---|---|
SAMPLE TIMING | ||||||
Aperture delay | 250 | 750 | ps | |||
Aperture delay matching between two channels on the same device | ±15 | ps | ||||
Aperture delay matching between two devices at the same temperature and supply voltage |
±150 | ps | ||||
Aperture jitter, clock amplitude = 2 VPP | 90 | fS | ||||
Fast overrange latency, ADC sample to FOVR indication on GPIO pins | 70 | Input clock cycles | ||||
tPD | Propagation delay time: logic gates and output buffer delay (does not change with fS) |
6 | ns | |||
SYSREF TIMING(1) | ||||||
tSU_SYSREF | SYSREF setup time: referenced to clock rising edge, 1.5 GSPS | 140 | 70 | ps | ||
tH_SYSREF | SYSREF hold time: referenced to clock rising edge, 1.5 GSPS | 50 | 20 | ps | ||
Valid transition window sampling period: tSU_SYSREF – tH_SYSREF, 1.5 GSPS | 476 | ps | ||||
JESD OUTPUT INTERFACE TIMING | ||||||
UI | Unit interval: 12.5 Gbps | 80 | 100 | 400 | ps | |
Serial output data rate | 2.5 | 10.0 | 12.5 | Gbps | ||
Rise, fall times: 1-pF, single-ended load capacitance to ground | 60 | ps | ||||
Total jitter: BER of 1E-15 and lane rate = 12.5 Gbps | 25 | %UI | ||||
Random jitter: BER of 1E-15 and lane rate = 12.5 Gbps | 0.99 | %UI, rms | ||||
Deterministic jitter: BER of 1E-15 and lane rate = 12.5 Gbps | 9.1 | %UI, pk-pk |
SFDR = 73 dBc, SNR = 62.4 dBFS, SINAD = 62 dBFS, THD = 71 dBc, HD2 = –75 dBFS, HD3 = –78 dBFS, SFDR (non HD2, HD3) = 85 dBc, IL spur = 81 dBFS |
SFDR = 65 dBc, SNR = 62.3 dBFS, SINAD = 61 dBFS, THD = 64 dBc, HD2 = –67 dBFS, HD3 = –75 dBFS, SFDR (non HD2, HD3) = 74 dBc, IL spur = 82 dBFS |
SFDR = 72 dBc, SNR = 60.2 dBFS, SINAD = 60 dBFS, THD = 71 dBc, HD2 = –74 dBFS, HD3 = –87 dBFS, SFDR (non HD2, HD3) = 80 dBFS, IL spur = 80 dBFS |
||
SFDR = 59 dBc, SNR = 57.9 dBFS, SINAD = 56 dBFS, HD2 = –61 dBFS, HD3 = –69 dBFS, SFDR (non HD2, HD3) = 81 dBc, THD = 58 dBc, IL spur = 83 dBFS |
fIN1 = 940 MHz, fIN2 = 960 MHz, AOUT = –36 dBFS, IMD = 94 dBFS |
fIN = 950 MHz, AIN = –2 dBFS |
fIN = 950 MHz, AIN = –2 dBFS |
fIN = 950 MHz, AIN = –2 dBFS |
fIN = 950 MHz, AIN = –2 dBFS |
fIN = 1850 MHz, AIN = –2 dBFS, SNR = 63.8 dBFS, SFDR (includes IL) = 78 dBc, fS = 1500 MSPS |
fIN = 1850 MHz, AIN = –2 dBFS, SNR = 66 dBFS, SFDR (includes IL) = 77 dBc, fS = 1500 MSPS |
fIN = 1850 MHz, AIN = –2 dBFS, SNR = 65.9 dBFS, SFDR (includes IL) = 74 dBc, fS = 1500 MSPS |
fIN = 1850 MHz, AIN = –2 dBFS, SNR = 68.1 dBFS, SFDR (includes IL) = 80.9 dBc, fS = 1500 MSPS |
SFDR = 65 dBc, SNR = 62.3 dBFS, SINAD = 61 dBFS, THD = 64 dBc, HD2 = –67 dBFS, HD3 = –73 dBFS, SFDR (non HD2, HD3) = 89 dBc, IL spur = 81 dBFS |
SFDR = 70 dBc, SNR = 60.8 dBFS, SINAD = 60 dBFS, THD = 69 dBc, HD2 = –72 dBFS, HD3 = –78 dBFS, SFDR (non HD2, HD3) = 81 dBc, IL spur = 82 dBFS |
SFDR = 70 dBc, SNR = 58.7 dBFS, SINAD = 58 dBFS, HD2 = –72 dBFS, HD3 = –75 dBFS, SFDR (non HD2, HD3) = 79 dBc, THD = 68 dBc, IL spur = 80 dBFS |
fIN1 = 940 MHz, fIN2 = 960 MHz, AOUT = –8 dBFS, IMD = 75 dBFS |
||
fIN = 950 MHz, AIN = –2 dBFS |
fIN = 950 MHz, AIN = –2 dBFS |
fIN = 950 MHz, AIN = –2 dBFS |
fIN = 950 MHz, AIN = –2 dBFS |
fIN = 950 MHz, AIN = –2 dBFS |
fIN = 1850 MHz, AIN = –2 dBFS, SNR = 65 dBFS, SFDR (includes IL) = 75 dBc, fS = 1500 MSPS |
fIN = 1850 MHz, AIN = –2 dBFS, SNR = 65.8 dBFS, SFDR (includes IL) = 74 dBc, fS = 1500 MSPS |
fIN = 1850 MHz, AIN = –2 dBFS, SNR = 66.4 dBFS, SFDR (includes IL) = 74.1 dBc, fS = 1500 MSPS |