ZHCSIC5C 数据表 | 德州仪器 TI.com.cn

ZHCSIC5C June 2018 – August 2021 DLPC3479

PRODUCTION DATA

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机械数据 (封装 | 引脚)

ZEZ|201
- MPBGAK7

散热焊盘机械数据 (封装 | 引脚)

订购信息

zhcsic5c_oa

6.6 Pin Electrical Characteristics

over operating free-air temperature range (unless otherwise noted)

PARAMETER⁽³⁾			TEST CONDITIONS⁽⁴⁾	MIN	MAX	UNIT
V_IH	High-level input threshold voltage	I²C buffer (I/O type 7)		0.7 × VCC_INTF	See ⁽¹⁾	V
		I/O type 1, 2, 3, 6, 8 except pins noted in ⁽²⁾	VCC18 = 1.8 V	1.17	3.6
		I/O type 1, 6 for pins noted in ⁽²⁾	VCC18 = 1.8 V	1.3	3.6
		I/O type 5, 9, 11	VCC_INTF = 1.8 V	1.17	3.6
		I/O type 12, 13	VCC_FLSH = 1.8 V	1.17	3.6
		I/O type 5, 9, 11	VCC_INTF = 2.5 V	1.7	3.6
		I/O type 12, 13	VCC_FLSH = 2.5 V	1.7	3.6
		I/O type 5, 9, 11	VCC_INTF = 3.3 V	2.0	3.6
		I/O type 12, 13	VCC_FLSH = 3.3 V	2.0	3.6
V_IL	Low-level input threshold voltage	I²C buffer (I/O type 7)		–0.5	0.3 × VCC_INTF	V
		I/O type 1, 2, 3, 6, 8 except pins noted in ⁽²⁾	VCC18 = 1.8 V	–0.3	0.63
		I/O type 1, 6 for pins noted in ⁽²⁾	VCC18 = 1.8 V	–0.3	0.5
		I/O type 5, 9, 11	VCC_INTF = 1.8 V	–0.3	0.63
		I/O type 12, 13	VCC_FLSH = 1.8 V	–0.3	0.63
		I/O type 5, 9, 11	VCC_INTF = 2.5 V	–0.3	0.7
		I/O type 12, 13	VCC_FLSH = 2.5 V	–0.3	0.7
		I/O type 5, 9, 11	VCC_INTF = 3.3 V	–0.3	0.8
		I/O type 12, 13	VCC_FLSH = 3.3 V	–0.3	0.8
V_OH	High-level output voltage	I/O type 1, 2, 3, 6, 8	VCC18 = 1.8 V	1.35		V
		I/O type 5, 9, 11	VCC_INTF = 1.8 V	1.35
		I/O type 12, 13	VCC_FLSH = 1.8 V	1.35
		I/O type 5, 9, 11	VCC_INTF = 2.5 V	1.7
		I/O type 12, 13	VCC_FLSH = 2.5 V	1.7
		I/O type 5, 9, 11	VCC_INTF = 3.3 V	2.4
		I/O type 12, 13	VCC_FLSH = 3.3 V	2.4
V_OL	Low-level output voltage	I²C buffer (I/O type 7)	VCC_INTF > 2 V		0.4	V
		I²C buffer (I/O type 7)	VCC_INTF < 2 V		0.2 × VCC_INTF
		I/O type 1, 2, 3, 6, 8	VCC18 = 1.8 V		0.45
		I/O Type 5, 9, 11	VCC_INTF = 1.8 V		0.45
		I/O Type 12, 13	VCC_FLSH = 1.8 V		0.45
		I/O Type 5, 9, 11	VCC_INTF = 2.5 V		0.7
		I/O Type 12, 13	VCC_FLSH = 2.5 V		0.7
		I/O Type 5, 9, 11	VCC_INTF = 3.3 V		0.4
		I/O Type 12, 13	VCC_FLSH = 3.3 V		0.4
I_OH	High-level output current⁽⁵⁾	I/O type 2, 4	VCC18 = 1.8 V	2		mA
		I/O type 5	VCC_INTF = 1.8 V	2
		I/O type 1	VCC18 = 1.8 V	3.5
		I/O type 9	VCC_INTF = 1.8 V	3.5
		I/O type 13	VCC_FLSH = 1.8 V	3.5
		I/O type 3	VCC18 = 1.8 V	10.6
		I/O type 5	VCC_INTF = 2.5 V	5.4
		I/O type 9, 13	VCC_INTF = 2.5V	10.8
		I/O type 13	VCC_FLSH = 2.5 V	10.8
		I/O type 5	VCC_INTF = 3.3 V	7.8
		I/O type 9	VCC_INTF = 3.3 V	15
		I/O type 13	VCC_FLSH = 3.3 V	15
I_OL	Low-level output current⁽⁶⁾	I²C buffer (I/O type 7)		3		mA
		I/O type 2, 4	VCC18 = 1.8 V	2.3
		I/O type 5	VCC_INTF = 1.8 V	2.3
		I/O type 1	VCC18 = 1.8 V	4.6
		I/O type 9	VCC_INTF = 1.8 V	4.6
		I/O type 13	VCC_FLSH = 1.8 V	4.6
		I/O type 3	VCC18 = 1.8 V	13.9
		I/O type 5	VCC_INTF = 2.5 V	5.2
		I/O type 9	VCC_INTF = 2.5 V	10.4
		I/O type 13	VCC_FLSH = 2.5 V	10.4
		I/O type 5	VCC_INTF = 3.3 V	4.4
		I/O type 9	VCC_INTF = 3.3 V	8.9
		I/O type 13	VCC_FLSH = 3.3 V	8.9
I_OZ	High-impedance leakage current	I²C buffer (I/O type 7)	V_{I2C buffer} < 0.1 × VCC_INTF or V_{I2C buffer} > 0.9 × VCC_INTF	–10	10	µA
		I/O type 1, 2, 3, 6, 8,	VCC18 = 1.8 V	–10	10
		I/O Type 5, 9, 11	VCC_INTF = 1.8 V	–10	10
		I/O Type 12, 13	VCC_FLSH = 1.8 V	–10	10
		I/O type 5, 9, 11	VCC_INTF = 2.5 V	–10	10
		I/O Type 12, 13	VCC_FLSH = 2.5 V	–10	10
		I/O Type 5, 9, 11	VCC_INTF = 3.3 V	–10	10
		I/O type 12, 13	VCC_FLSH = 3.3 V	–10	10
C_I	Input capacitance (including package)	I²C buffer (I/O type 7)			5	pF
		I/O type 1, 2, 3, 6, 8	VCC18 = 1.8 V	2.6	3.5
		I/O Type 5, 9, 11	VCC_INTF = 1.8 V	2.6	3.5
		I/O Type 12, 13	VCC_FLSH = 1.8 V	2.6	3.5
		I/O type 5, 9, 11	VCC_INTF = 2.5 V	2.6	3.5
		I/O type 12, 13	VCC_FLSH = 2.5 V	2.6	3.5
		I/O type 5, 9, 11	VCC_INTF = 3.3 V	2.6	3.5
		I/O type 12, 13	VCC_FLSH = 3.3 V	2.6	3.5
		sub-LVDS – DMD high speed (I/O type 4)	VCC18 = 1.8 V		3

(1) I/O is high voltage tolerant; that is, if VCC_INTF = 1.8 V, the input is 3.3-V tolerant, and if VCC_INTF = 3.3 V, the input is 5-V tolerant.

(2) Controller pins CMP_OUT, PARKZ, RESETZ, and GPIO_00 through GPIO_19 have slightly varied V_IH and V_IL range from other 1.8-V I/O.

(3) The I/O type refers to the type defined in Table 5-9.

(4) Test conditions that define a value for VCC18, VCC_INTF, or VCC_FLSH show the nominal voltage that the specified I/O supply reference is set to.

(5) At a high level output signal, the given I/O outputs at least the minimum current specified.

(6) At a low level output signal, the given I/O sinks at least the minimum current specified.