米6体育平台手机版

ZHCSDC6D November 2014 – February 2018 AMC7836

PRODUCTION DATA.

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机械数据 (封装 | 引脚)

PAP|64
- MPQF071C

散热焊盘机械数据 (封装 | 引脚)

PAP|64
- PPTD050N

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6.5 Electrical Characteristics: DAC

The electrical ratings specified in this section apply to all specifications in this document, unless otherwise noted. These specifications are interpreted as conditions that do not degrade the device parametric or functional specifications for the life of the product containing it. AV_DD = DV_DD = 4.7 to 5.5 V, AV_CC = 12 V, IOV_DD = 1.8 to 5.5 V, AGND = DGND = 0 V, AV_EE = AV_SSB = AV_SSC = AV_SSD = –12 V (for DAC groups in negative range) or 0 V (for DAC groups in positive ranges), DAC output range = 0 to 10 V for all groups, no load on the DACs, T_A = –40°C to 105°C

PARAMETER		TEST CONDITIONS	MIN	TYP	MAX	UNIT
DAC DC ACCURACY
	Resolution		12			Bits
INL	Relative accuracy	Measured by line passing through codes 020h and FFFh. 0 to 10 V and –10 to 0 V ranges		±0.3	±1	LSB
INL	Relative accuracy	Measured by line passing through codes 040h and FFFh. 0 to 5 V and –5 to 0 V ranges		±0.5	±1.5	LSB
DNL	Differential nonlinearity	Specified monotonic. Measured by line passing through codes 020h and FFFh. 0 to 10 V and –10 to 0 V ranges		±0.03	±1	LSB
DNL	Differential nonlinearity	Specified monotonic. Measured by line passing through codes 020h and FFFh. 0 to 5 V and –5 to 0 V ranges		±0.06	±1	LSB
TUE	Total unadjusted error⁽¹⁾	T_A= 25°C, 0 to 10 V range		±2.5	±20	mV
		T_A = 25°C, –10 to 0 V range		±2.5	±20
		T_A = 25°C, 0 to 5 V range		±1.5	±15
		T_A = 25°C, –5 to 0 V range		±1.5	±15
	Offset error	T_A = 25°C, Measured by line passing through codes 020h and FFFh. 0 to 10 V range		±0.25	±5	mV
	Offset error	T_A = 25°C, Measured by line passing through codes 040h and FFFh. 0 to 5 V range		±0.25	±5	mV
	Zero-code error	T_A = 25°C, Code 000h, –10 to 0 V range		±1	±25	mV
	Zero-code error	T_A = 25°C, Code 000h, –5 to 0 V range		±1	±25	mV
	Gain error⁽¹⁾	T_A = 25°C, Measured by line passing through codes 020h and FFFh, 0 to 10 V range		±0.01	±0.2	%FSR
		T_A = 25°C, Measured by line passing through codes 020h and FFFh, –10 to 0 V range		±0.01	±0.2
		T_A = 25°C, Measured by line passing through codes 040h and FFFh, 0 to 5 V range		±0.01	±0.2
		T_A = 25°C, Measured by line passing through codes 040h and FFFh, –5 to 0 V range		±0.01	±0.2
	Offset temperature coefficient	0 to 10 V range		±1		ppm/°C
	Offset temperature coefficient	0 to 5 V range		±1		ppm/°C
	Zero-code temperature coefficient	–10 to 0 V range		±2		ppm/°C
	Zero-code temperature coefficient	–5 to 0 V range		±2		ppm/°C
	Gain temperature coefficient⁽¹⁾	0 to 10 V range		±2.5		ppm/°C
		–10 to 0 V range		±2.5
		0 to 5 V range		±2.5
		–5 to 0 V range		±2.5
DAC OUTPUT CHARACTERISTICS
	Full-scale output voltage range⁽²⁾	Set at power-up or reset through auto-range detection. The output range can be modified after power-up or reset through the DAC range registers (address 0x1E through 0x1F). DAC-RANGE = 100b	–10		0	V
		The output range can be modified after power-up or reset through the DAC range registers (address 0x1E through 0x1F). DAC-RANGE = 101b	–5		0
		Set at power-up or reset through auto-range detection. The output range can be modified after power-up or reset through the DAC range registers (address 0x1E through 0x1F). DAC-RANGE = 111b	0		5
		The output range can be modified after power-up or reset through the DAC range registers (address 0x1E through 0x1F). DAC-RANGE = 110b	0		10
	Output voltage settling time	Transition: Code 400h to C00h to within ½ LSB, R_L = 2 kΩ, C_L = 200 pF. 0 to 10 V and –10 to 0 V ranges		10		µs
	Output voltage settling time	Transition: Code 400h to C00h to within ½ LSB, R_L = 2 kΩ, C_L = 200 pF. 0 to 5 V and –5 to 0 V ranges		10		µs
	Slew rate	Transition: Code 400h to C00h, 10% to 90%, R_L = 2 kΩ, C_L = 200 pF. 0 to 10 V and –10 to 0 V ranges		1.25		V/µs
	Slew rate	Transition: Code 400h to C00h, 10% to 90%, R_L = 2 kΩ, C_L = 200 pF. 0 to 5 V and –5 to 0 V ranges		1.25		V/µs
	Short circuit current	Full-scale current shorted to the DAC group AV_SS or AV_CC voltage		±45		mA
	Load current⁽³⁾	Source or sink with 1-V headroom from the DAC group AV_CC or AV_SS voltage, voltage drop < 25 mV	±15			mA
	Load current⁽³⁾	Source or sink with 300-mV headroom from the DAC group AV_CC or AV_SS voltage, voltage drop < 25 mV	±10			mA
	Maximum capacitive load⁽⁴⁾	R_L = ∞	0		10	nF
	DC output impedance	Code set to 800h, ±15mA		1		Ω
	Power-on overshoot	AV_EE = AV_SSB = AV_SSC = AV_SSD = AGND, AV_CC = 0 to 12 V, 2-ms ramp		10		mV
	Glitch energy	Transition: Code 7FFh to 800h; 800h to 7FFh		1		nV-s
	Output noise	T_A = 25°C, 1 kHz, code 800h, includes internal reference noise		520		nV/√Hz
	Output noise	T_A = 25°C, integrated noise from 0.1 Hz to 10 Hz, code 800h, includes internal reference noise		20		µV_PP
CLAMP OUTPUTS
	Clamp output voltage⁽⁵⁾	DAC output range: 0 to 10 V, AV_SS = AGND		0		V
		DAC output range: 0 to 5 V, AV_SS = AGND		0
		DAC output range: –10 to 0 V, AV_SS = –12 V		AV_SS + 2
		DAC output range: –5 to 0 V, AV_SS = –6 V		AV_SS + 1
	Clamp output impedance			8		kΩ

(1) The internal reference contribution not included.

(2) The output voltage of each DAC group must not be greater than that of the corresponding AV_CC pin (AV_{CC_AB} or AV_{CC_CD}) or lower than that of the corresponding AV_SS pin (AV_EE, AV_SSB, AV_SSC or AV_SSD). See the DAC Output Range and Clamp Configuration section for more details.

(3) If all channels are simultaneously loaded, care must be taken to ensure the thermal conditions for the device are not exceeded.

(4) To be sampled during initial release to ensure compliance; not subject to production testing.

(5) No DAC load to the DAC group AV_SS pin.