JAJSD74 データシート

JAJSD74E February 2016 – August 2022 ADS8681 , ADS8685 , ADS8689

PRODUCTION DATA

パッケージ・オプション

メカニカル・データ（パッケージ｜ピン）

RUM|16
- MPQF223A
PW|16
- MPDS361A

サーマルパッド・メカニカル・データ

RUM|16
- QFND157C

発注情報

6.5 Electrical Characteristics

all minimum and maximum specifications are at T_A = –40°C to +125°C; typical specifications are at T_A = 25°C; AVDD = 5 V, DVDD = 3.3 V, V_REF = 4.096 V (internal), and maximum throughput (unless otherwise noted)

PARAMETER			TEST CONDITIONS		MIN	TYP	MAX	UNIT
ANALOG INPUTS
V_IN	Full-scale input span⁽¹⁾ (AIN_P to AIN_GND)		Input range = ±3 × V_REF		–12.288		12.288	V
			Input range = ±2.5 × V_REF		–10.24		10.24
			Input range = ±1.5 × V_REF		–6.144		6.144
			Input range = ±1.25 × V_REF		–5.12		5.12
			Input range = ±0.625 × V_REF		–2.56		2.56
			Input range = 3 × V_REF		0		12.288
			Input range = 2.5 × V_REF		0		10.24
			Input range = 1.5 × V_REF		0		6.144
			Input range = 1.25 × V_REF		0		5.12
AIN_P	Operating input range		Input range = ±3 × V_REF		–12.288		12.288	V
			Input range = ±2.5 × V_REF		–10.24		10.24
			Input range = ±1.5 × V_REF		–6.144		6.144
			Input range = ±1.25 × V_REF		–5.12		5.12
			Input range = ±0.625 × V_REF		–2.56		2.56
			Input range = 3 × V_REF		0		12.288
			Input range = 2.5 × V_REF		0		10.24
			Input range = 1.5 × V_REF		0		6.144
			Input range = 1.25 × V_REF		0		5.12
AIN_GND	Operating input range		All input ranges		–0.1	0	0.1	V
R_IN	Input impedance		At T_A = 25°C	Input range = ±3 × V_REF	1.02	1.2	1.38	MΩ
				Input range = ±1.5 × V_REF	1.02	1.2	1.38
				Input range = 3 × V_REF	1.02	1.2	1.38
				Input range = 1.5 × V_REF	1.02	1.2	1.38
				Input range = ±2.5 × V_REF	0.85	1	1.15
				Input range = ±1.25 × V_REF	0.85	1	1.15
				Input range = ±0.625 × V_REF	0.85	1	1.15
				Input range = 2.5 × V_REF	0.85	1	1.15
				Input range = 1.25 × V_REF	0.85	1	1.15
	Input impedance drift					7	25	ppm/°C
I_IN	Input current		With voltage at the AIN_P pin = V_IN	Input range = ±3 × V_REF	(V_IN – 2.5) / R_IN			µA
				Input range = ±2.5 × V_REF	(V_IN – 2.2) / R_IN
				Input range = ±1.5 × V_REF	(V_IN – 2.0) / R_IN
				Input range = ±1.25 × V_REF	(V_IN – 2.0) / R_IN
				Input range = ±0.625 × V_REF	(V_IN – 1.6) / R_IN
				Input range = 3 × V_REF	(V_IN – 2.6) / R_IN
				Input range = 2.5 × V_REF	(V_IN – 2.5) / R_IN
				Input range = 1.5 × V_REF	(V_IN – 2.7) / R_IN
				Input range = 1.25 × V_REF	(V_IN – 2.5) / R_IN
INPUT OVERVOLTAGE PROTECTION CIRCUIT
V_OVP	All input ranges		AVDD = 5 V, all input ranges		–20		20	V
V_OVP	All input ranges		AVDD = floating, all input ranges		–15		15	V
INPUT BANDWIDTH
f_{–3 dB}	Small-signal Input bandwidth	–3 dB	All input ranges			15		kHz
f_{–0.1 dB}	Small-signal Input bandwidth	–0.1 dB	All input ranges			2.5		kHz
SYSTEM PERFORMANCE
	Resolution				16			Bits
NMC	No missing codes				16			Bits
DNL	Differential nonlinearity⁽⁴⁾		All input ranges		–0.7	±0.4	0.7	LSB
INL	Integral nonlinearity⁽⁴⁾		All bipolar ranges⁽⁸⁾		–1.2	±0.5	1.2	LSB
			All unipolar ranges⁽⁹⁾	ADS8681	–1.5	±0.5	1.5
			All unipolar ranges⁽⁹⁾	ADS8685, ADS8689	–1.2	±0.5	1.2
E_O	Offset error⁽²⁾		At T_A = 25°C	All bipolar ranges⁽⁸⁾	–1	±0.2	1	mV
E_O	Offset error⁽²⁾		At T_A = 25°C	All unipolar ranges⁽⁹⁾	–2	±0.2	2	mV
	Offset error drift with temperature		All input ranges		–3	±0.75	3	ppm/°C
E_G	Gain error⁽⁵⁾		At T_A = 25°C, all input ranges		–0.025	±0.01	0.025	%FSR
	Gain error drift with temperature⁽⁶⁾		All input ranges		–5	±1	5	ppm/°C
DYNAMIC CHARACTERISTICS
SNR	Signal-to-noise ratio⁽⁷⁾		Input range = ±3 × V_REF	ADS8681	90.25	92		dB
			Input range = ±3 × V_REF	ADS8685, ADS8689	90.5	92
			Input range = ±2.5 × V_REF	ADS8681	90.25	92
			Input range = ±2.5 × V_REF	ADS8685, ADS8689	90.5	92
			Input range = ±1.5 × V_REF		89.5	91.5
			Input range = ±1.25 × V_REF		89.5	91.5
			Input range = ±0.625 × V_REF		87.75	90
			Input range = 3 × V_REF		89.25	91
			Input range = 2.5 × V_REF		89	91
			Input range = 1.5 × V_REF		88	90
			Input range = 1.25 × V_REF		87.5	90
THD	Total harmonic distortion⁽³⁾⁽⁷⁾		All input ranges	ADS8681		–107		dB
THD	Total harmonic distortion⁽³⁾⁽⁷⁾		All input ranges	ADS8685, ADS8689		–112		dB
SINAD	Signal-to-noise + distortion⁽⁷⁾		Input range = ±3 × V_REF	ADS8681	90.15	92		dB
			Input range = ±3 × V_REF	ADS8685, ADS8689	90.4	92
			Input range = ±2.5 × V_REF	ADS8681	90.15	92
			Input range = ±2.5 × V_REF	ADS8685, ADS8689	90.4	92
			Input range = ±1.5 × V_REF		89.4	91.5
			Input range = ±1.25 × V_REF		89.4	91.5
			Input range = ±0.625 × V_REF		87.65	90
			Input range = 3 × V_REF		89	91
			Input range = 2.5 × V_REF		88.75	91
			Input range = 1.5 × V_REF		87.75	90
			Input range = 1.25 × V_REF		87.25	90
SFDR	Spurious-free dynamic range⁽⁷⁾		All input ranges	ADS8681		109		dB
SFDR	Spurious-free dynamic range⁽⁷⁾		All input ranges	ADS8685, ADS8689		114		dB
SAMPLING DYNAMICS
t_CONV	Conversion time		ADS8681				665	ns
			ADS8685				1000
			ADS8689				5000
t_ACQ	Acquisition time		ADS8681		335			ns
			ADS8685		1000
			ADS8689		5000
f_cycle	Maximum throughput rate without latency		ADS8681				1000	kSPS
			ADS8685				500
			ADS8689				100
INTERNAL REFERENCE OUTPUT
V_REFIO	On the REFIO pin (configured as an output)		At T_A = 25°C	TSSOP (PW)	4.095	4.096	4.097	V
V_REFIO	On the REFIO pin (configured as an output)		At T_A = 25°C	WQFN (RUM)	4.094	4.096	4.098	V
dV_REFIO/dT_A	Internal reference temperature drift		TSSOP (PW)			4	7	ppm/°C
dV_REFIO/dT_A	Internal reference temperature drift		WQFN (RUM)			5		ppm/°C
C_{OUT_REFIO}	Decoupling capacitor on REFIO pin				4.7			µF
V_REFCAP	Reference voltage to the ADC (on the REFCAP pin)		At T_A = 25°C		4.095	4.096	4.097	V
	REFCAP temperature drift					0.5	2	ppm/°C
C_{OUT_REFCAP}	Decoupling capacitor on REFCAP pin				10			μF
	Turn-on time		C_{OUT_REFCAP} = 10 µF, C_{OUT_REFIO} = 10 µF			20		ms
EXTERNAL REFERENCE INPUT
V_{REFIO_EXT}	External reference voltage on REFIO		REFIO pin configured as an input		4.046	4.096	4.146	V
AVDD COMPARATOR
V_{TH_HIGH}	High threshold voltage					5.3		V
V_{TH_LOW}	Low threshold voltage					4.7		V
POWER-SUPPLY REQUIREMENTS
AVDD	Analog power-supply voltage				4.75	5	5.25	V
DVDD	Digital power-supply voltage		Operating range		1.65	3.3	AVDD
DVDD	Digital power-supply voltage		Supply range for specified performance		2.7	3.3	AVDD
I_{AVDD_DYN}	Analog supply current, device converting at maximum throughput		Internal reference	ADS8681		8.2	10.5	mA
				ADS8685		5.6	7.25
				ADS8689		4	5
			External reference	ADS8681		7.0	8.75
				ADS8685		4.4	5.5
				ADS8689		2.7	3.25
I_{AVDD_STC}	Analog supply current, device not converting		Internal reference	ADS8681		4.7	6.25	mA
			Internal reference	ADS8685, ADS8689		3.5	4.7
			External reference	ADS8681		3.5	4.5
			External reference	ADS8685, ADS8689		2.3	3
I_{AVDD_STDBY}	Analog supply current, device in STANDBY mode		Internal reference			2.8		mA
I_{AVDD_STDBY}	Analog supply current, device in STANDBY mode		External reference			1.6		mA
I_{AVDD_PD}	Analog supply current, device in PD mode		Internal reference			10		μA
I_{AVDD_PD}	Analog supply current, device in PD mode		External reference			10		μA
I_{DVDD_DYN}	Digital supply current, maximum throughput					0.2	0.25	mA
I_{DVDD_STDBY}	Digital supply current, device in STANDBY mode					1		μA
I_{DVDD_PD}	Digital supply current, device in PD mode					1		μA
DIGITAL INPUTS (CMOS)
V_IH	Digital high input voltage logic level		DVDD > 2.35 V		0.7 × DVDD		DVDD + 0.3	V
V_IH	Digital high input voltage logic level		DVDD ≤ 2.35 V		0.8 × DVDD		DVDD + 0.3	V
V_IL	Digital low input voltage logic level		DVDD > 2.35 V		–0.3		0.3 × DVDD	V
V_IL	Digital low input voltage logic level		DVDD ≤ 2.35 V		–0.3		0.2 × DVDD	V
	Input leakage current					100		nA
	Input pin capacitance					5		pF
DIGITAL OUTPUTS (CMOS)
V_OH	Digital high output voltage logic level		I_O = 500-μA source		0.8 × DVDD		DVDD	V
V_OL	Digital low output voltage logic level		I_O = 500-μA sink		0		0.2 × DVDD	V
	Floating state leakage current		Only for digital output pins			1		µA
	Internal pin capacitance					5		pF
TEMPERATURE RANGE
T_A	Operating free-air temperature				–40		125	°C

(1) Ideal input span, does not include gain or offset error.

(2) Measured relative to actual measured reference.

(3) Calculated on the first nine harmonics of the input frequency.

(4) This specification indicates the endpoint INL, not best-fit INL.

(5) Excludes internal reference accuracy error.

(6) Excludes internal reference temperature drift.

(7) All specifications expressed in decibels (dB) refer to the full-scale input (FSR) and are tested with a 1-kHz input signal 0.25 dB below full-scale, unless otherwise specified.

(8) Bipolar ranges are ±12.288 V, ±10.24 V, ±6.144 V, ±5.12 V, and ±2.56 V.

(9) Unipolar ranges are 0 V–12.288 V, 0 V–10.24 V, 0 V–6.144 V, and 0 V–5.12 V.