SPRSP93 November 2024 F29H850TU , F29H859TU-Q1
ADVANCE INFORMATION
PARAMETER | TEST CONDITIONS | MIN | TYP | MAX | UNIT |
---|---|---|---|---|---|
General | |||||
ADCCLK Conversion Cycles | 200-MHz SYSCLK | 29.6 | 31 | ADCCLKs | |
Power Up Time | External Reference mode | 500 | µs | ||
Internal Reference mode | 5000 | µs | |||
Internal Reference mode, when switching between 2.5-V range and 3.3-V range. | 5000 | µs | |||
VREFHI input current(1) | 190 | µA | |||
Internal Reference Capacitor Value(2) | 4.7 | 22 | µF | ||
External Reference Capacitor Value(2) | 4.7 | 22 | µF | ||
DC Characteristics | |||||
Gain Error | Internal reference 2.5V | -720 | 720 | LSB | |
External reference | –64 | ±20 | 64 | LSB | |
Offset Error | (Across temperature) Internal reference 2.5V | -6 | ±4 | 6 | LSB |
Offset Error | –6 | ±4 | 6 | LSB | |
Channel-to-Channel Gain Error(4) | ±6 | LSB | |||
Channel-to-Channel Offset Error(4) | ±6 | LSB | |||
ADC-to-ADC Gain Error(5) | Identical VREFHI and VREFLO for all ADCs | ±6 | LSB | ||
ADC-to-ADC Offset Error(5) | Identical VREFHI and VREFLO for all ADCs | ±6 | LSB | ||
DNL Error | >–1 | ±0.5 | 1 | LSB | |
INL Error | –6 | ±1.5 | 6 | LSB | |
ADC-to-ADC Isolation | VREFHI = 2.5 V, synchronous ADCs | –2 | 2 | LSBs | |
AC Characteristics | |||||
SNR(3) | VREFHI = 2.5 V, fin = 100 kHz, SYSCLK from X1 | 83.5 | dB | ||
VREFHI = 2.5 V, fin = 100 kHz, SYSCLK from INTOSC | 78.2 | ||||
THD(3) | VREFHI = 2.5 V, fin = 100 kHz | –94 | dB | ||
SFDR(3) | VREFHI = 2.5 V, fin = 100 kHz | 93 | dB | ||
SINAD(3) | VREFHI = 2.5 V, fin = 100 kHz, SYSCLK from X1 | 83.4 | dB | ||
VREFHI = 2.5 V, fin = 100 kHz, SYSCLK from INTOSC | 76.0 | ||||
ENOB(3) | VREFHI = 2.5 V, fin = 100 kHz, SYSCLK from X1, Single ADC | 13.5 | bits | ||
VREFHI = 2.5 V, fin = 100 kHz, SYSCLK from X1, synchronous ADCs | 13.5 | ||||
VREFHI = 2.5 V, fin = 100 kHz, SYSCLK from X1, asynchronous ADCs | Not Supported | ||||
PSRR | VDD = 1.2-V DC + 100mV DC up to Sine at 1 kHz |
77 | dB | ||
VDD = 1.2-V DC + 100 mV DC up to Sine at 800 kHz |
74 | ||||
VDDA = 3.3-V DC +
200 mV DC up to Sine at 1 kHz |
77 | ||||
VDDA = 3.3-V DC + 200 mV Sine at 800 kHz |
74 |