SBASAD1 Data sheet

SBASAD1A December 2023 – May 2024 ADC3910D025 , ADC3910D065 , ADC3910D125 , ADC3910S025 , ADC3910S065 , ADC3910S125

PRODUCTION DATA

Package Options

Mechanical Data (Package|Pins)

RSM|32
- MPQF195B

Thermal pad, mechanical data (Package|Pins)

RSM|32
- QFND112H

Orderable Information

5.6 Electrical Characteristics - DC Specifications

Maximum and minimum values are specified over the operating free-air temperature range and nominal supply voltages. Typical values are specified at T_A = 25°C, 50% clock duty cycle, AVDD = IOVDD = 1.8 V, Internal 1.2 V reference, and –1-dBFS differential input, unless otherwise noted

PARAMETER		TEST CONDITIONS	MIN	TYP	MAX	UNIT
DC ACCURACY (25 MSPS)
No missing codes	No missing codes		10			bits
DNL	Differential nonlinearity		-0.95	±0.4	2.1	LSB
INL	Integral nonlinearity		-2	±0.5	2.1	LSB
V_{OS_ERR}	Offset error		-2.75	±1	2.75	LSB
V_{OS_DRIFT}	Offset drift over temperature			0.001		LSB/ºC
GAIN_ERR	Gain error	External Reference	-2.25	±0.2	2.25	%FSR
GAIN_ERR	Gain error	Internal Reference		±0.8		%FSR
GAIN_DRIFT	Gain drift over temperature	External Reference		-35		ppm/ºC
GAIN_DRIFT	Gain drift over temperature	Internal Reference		-102		ppm/ºC
DC ACCURACY (65 MSPS)
No missing codes	No missing codes		10			bits
DNL	Differential nonlinearity		-0.95	±0.4	2.1	LSB
INL	Integral nonlinearity		-2	±0.5	2.1	LSB
V_{OS_ERR}	Offset error		-2.75	±1	2.75	LSB
V_{OS_DRIFT}	Offset drift over temperature			0.001		LSB/ºC
GAIN_ERR	Gain error	External Reference	-2.25	±0.2	2.25	%FSR
GAIN_ERR	Gain error	Internal Reference		±0.8		%FSR
GAIN_DRIFT	Gain drift over temperature	External Reference		-35		ppm/ºC
GAIN_DRIFT	Gain drift over temperature	Internal Reference		-102		ppm/ºC
DC ACCURACY (125 MSPS)
No missing codes	No missing codes		10			bits
DNL	Differential nonlinearity		-0.95	±0.4	2.1	LSB
INL	Integral nonlinearity		-2	±0.5	2.1	LSB
V_{OS_ERR}	Offset error		-2.75	±1	2.75	LSB
V_{OS_DRIFT}	Offset drift over temperature			0.001		LSB/ºC
GAIN_ERR	Gain error	External Reference	-2.25	±0.3	2.25	%FSR
GAIN_ERR	Gain error	Internal Reference		±0.8		%FSR
GAIN_DRIFT	Gain drift over temperature	External Reference		-35		ppm/ºC
GAIN_DRIFT	Gain drift over temperature	Internal Reference		-102		ppm/ºC
ADC ANALOG INPUT (INAP/M, INBP/M)
FS	Input full scale	Differential		1.9		Vpp
FS	Input full scale	Single-ended		0.95		Vpp
C_IN	Differential input Capacitance	F_IN = 100 kHz		7		pF
V_CM	Input common mode voltage		V_OCM- 50mV	1.275	V_OCM+ 50mV	V
V_OCM	Output common mode voltage			1.25		V
BW	Analog Input Bandwidth (-3dB)			150		MHz
EXTERNAL VOLTAGE REFERENCE (VREF)
V_REF	External voltage reference			1.2		V
Input Current				0.1		mA
Input impedance				12		kΩ
CLOCK INPUT
Input clock frequency			5		125	MHz
V_IH	High level input voltage		AVDD - 0.3	1.8		V
V_IL	Low level input voltage			0	AVSS + 0.3	V
C_IN	Input capacitance			0.5		pF
Clock duty cycle			45	50	55	%
DIGITAL INPUTS (DCLKIN, RESET, OEN, SCLK, SEN, SDIO)
V_IH	High level input voltage	DCLKIN	AVDD - 0.1	AVDD		V
V_IL	Low level input voltage	DCLKIN			0.1	V
V_IH	High level input voltage	RESET, OEN, SCLK, SEN, SDIO	1.4			V
V_IL	Low level input voltage				0.4	V
I_IH	High level input current			90	150	uA
I_IL	Low level input current		-150	-90		uA
C_I	Input capacitance			1.5		pF
DIGITAL OUTPUT (SDOUT)
V_OH	High level output voltage	I_LOAD = -400 uA	AVDD - 0.1	AVDD		V
V_OL	Low level output voltage	I_LOAD = 400 uA			0.1	V
DIGITAL CMOS OUTPUTS (D0:D11)
Output data rate		per CMOS output pin			250	MHz
V_OH	High level output voltage	I_LOAD = -400 uA	IOVDD - 0.1	IOVDD		V
V_OL	Low level output voltage	I_LOAD = 400 uA			0.1	V
V_OH	High level output voltage	I_LOAD = -400 uA, ALERT/GPO	IOVDD - 0.1	IOVDD		V
V_OL	Low level output voltage	I_LOAD = -400 uA, ALERT/GPO			0.1	V