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ZHCSRW5A March 2023 – November 2023 TCAN3413 , TCAN3414

PRODUCTION DATA

封裝選項

請參考 PDF 數(shù)據(jù)表獲取器件具體的封裝圖。

機械數(shù)據(jù) (封裝 | 引腳)

D|8
DDF|8
DRB|8

散熱焊盤機械數(shù)據(jù) (封裝 | 引腳)

訂購信息

zhcsrw5a_oa

5.8 Electrical Characteristics

parameters valid over recommended operating conditions with -40℃ ≤ T_J ≤ 150℃ (Typical values are at V_CC = 3.3 V, V_IO = 3.3 V for TCAN3413, Device ambient maintained at 27℃) unless otherwise noted

PARAMETER			TEST CONDITIONS	MIN	TYP	MAX	UNIT
Driver Electrical Characteristics
V_O(DOM)	Dominant output voltage normal mode	CANH	TXD = 0 V, STB, SHDN = 0 V 50 ? ≤ R_L ≤ 65 ?, C_L = open See Figure 6-2 and Figure 7-3	2.25		V_CC	V
V_O(DOM)	Dominant output voltage normal mode	CANL		0.5		1.25	V
V_O(REC)	Recessive output voltage normal mode	CANH and CANL	TXD = V_IOor V_CC, STB, SHDN = 0 V R_L = open (no load), C_L= open See Figure 6-2 and Figure 7-3	1.5	1.9	2.25	V
V_SYM	Driver symmetry {(V_O(CANH) + V_O(CANL))/(V_{O(REC_CANH)} + V_{O(REC_CANL)}}		TXD = 250 kHz, 1 MHz, 2.5 MHz, STB, SHDN = 0 V R_L = 60, C_SPLIT = 4.7 nF, C_L = open See Figure 6-2 and Figure 8-2	0.9		1.1	V/V
V_{SYM_DC}	DC output symmetry (CANH_REC + CANL_REC - CANH_DOM - CANL_DOM)		STB, SHDN = 0 V R_L = 60 ?, C_L= open See Figure 6-2 and Figure 7-3	–400		400	mV
V_OD(DOM)	Differential output voltage normal mode Dominant	CANH - CANL	TXD = 0 V, STB. SHDN = 0 V 50 ? ≤ R_L ≤ 65 ?, C_L= open See Figure 6-2 and Figure 7-3	1.5		3	V
		CANH - CANL	TXD = 0 V, STB, SHDN = 0 V 45 ? ≤ R_L ≤ 70 ?, C_L= open See Figure 6-2 and Figure 7-3	1.4		3	V
		CANH - CANL	TXD = 0 V, STB, SHDN = 0 V R_L = 2240 ?, C_L= open See Figure 6-2 and Figure 7-3	1.5		3.4	V
V_OD(REC)	Differential output voltage normal mode Recessive	CANH - CANL	TXD = V_IOor V_CC, STB, SHDN = 0 V R_L = 60 ?, C_L= open See Figure 6-2 and Figure 7-3	–120		12	mV
V_OD(REC)	Differential output voltage normal mode Recessive	CANH - CANL	TXD = V_IOor V_CC, STB, SHDN = 0 V R_L = open, C_L= open See Figure 6-2 and Figure 7-3	–50		50	mV
V_O(STB)	Bus output voltage standby mode	CANH	TXD = STB = V_IOor V_CC, R_L = open , C_L= open See Figure 6-2 and Figure 7-3	-0.1		0.1	V
		CANL		-0.1		0.1	V
		CANH - CANL		-0.2		0.2	V
I_OS(DOM)	Short-circuit bus output current, dominant, normal mode		See Figure 6-7 and Figure 7-3, V_(CANH) = -15 V to 40 V, CANL = open, TXD = 0 V	–115		115	mA
I_OS(DOM)	Short-circuit bus output current, dominant, normal mode		See Figure 6-7 and Figure 7-3 , V_{(CAN_L)} = -15 V to 40 V, CANH = open, TXD = 0 V	–115		115	mA
I_OS(REC)	Short-circuit steady-state output current, recessive, normal mode		See Figure 6-7 and Figure 7-3 , V_(CANH) = -27 V to 32 V, CANL = open, STB=0, TXD = V_IOor V_CC,	–7		7	mA
I_OS(REC)			See Figure 6-7 and Figure 7-3 , V_(CANL) = -27 V to 32 V, CANH = open, STB = 0, TXD = V_IOor V_CC,	–7		7	mA
Receiver Electrical Characteristics
V_IT	Input threshold voltage normal mode		See Figure 6-3 and Table 7-6 -30 V ≤ V_CM ≤ 30 V, STB, SHDN= 0 V	500		900	mV
V_IT(STB)	Input threshold standby mode, TCAN3414		See Figure 6-3 and Table 7-6 -30 V ≤ V_CM ≤ 30 V, SHDN= 0 V, STB= V_CC	400		1150	mV
	Input threshold standby mode, TCAN3413		See Figure 6-3 and Table 7-6 V_IO = 3 V to 3.6 V, -30 V ≤ V_CM ≤ 30 V, STB= V_IO	400		1150	mV
	Input threshold standby mode, TCAN3413		See Figure 6-3 and Table 7-6 V_IO = 1.7 V to 1.9 V, 2.25 V to 2.75 V, -12 V ≤ V_CM ≤ 12 V, STB= V_IO	400		1150	mV
V_DOM	Normal mode dominant state differential input voltage range		See Figure 6-3 and Table 7-6 -30 V ≤ V_CM ≤ 30 V, STB, SHDN= 0 V	0.9		9	V
V_REC	Normal mode recessive state differential input voltage range		See Figure 6-3 and Table 7-6 -30 V ≤ V_CM ≤ 30 V, STB, SHDN= 0 V	-4		0.5	V
V_DOM(STB)	Standby mode dominant state differential input voltage range		See Figure 6-3 and Table 7-6 SHDN= 0 V, STB = V_IO, -30 V ≤ V_CM ≤ 30 V	1.15		9	V
V_REC(STB)	Standby mode recessive state differential input voltage range		See Figure 6-3 and Table 7-6 SHDN = 0 V, STB = V_IO, -30 V ≤ V_CM ≤ 30 V	-4		0.4	V
V_HYS	Hysteresis voltage for input threshold normal mode		See Figure 6-3 and Table 7-6 -30 V ≤ V_CM ≤ 30 V, STB, SHDN= 0 V		50		mV
V_CM	Common mode range normal and standby modes		See Figure 6-3 and Table 7-6	–30		30	V
I_LKG(IOFF)	Unpowered bus input leakage current		CANH = CANL = 5 V, V_CC = V_IO = GND			5	μA
C_I	Input capacitance to ground (CANH or CANL)		TXD = V_IO,			40	pF
C_ID	Differential input capacitance		TXD = V_IO,			20	pF
R_ID	Differential input resistance		TXD = V_IO,STB = 0 V -30 V ≤ V_CM ≤ 30 V	25		50	kΩ
R_IN	Single ended input resistance (CANH or CANL)		TXD = V_IO,STB = 0 V -30 V ≤ V_CM ≤ 30 V	13		25	kΩ
R_IN(M)	Input resistance matching [1 – (R_IN(CANH) / R_IN(CANL))] × 100 %		V_{(CAN_H)} = V_{(CAN_L)}= 5 V	–3		3	%
TXD Terminal (CAN Transmit Data Input)
V_IH	High-level input voltage		TCAN3414	0.7 V_CC			V
V_IH	High-level input voltage		TCAN3413	0.7 V_IO			V
V_IL	Low-level input voltage		TCAN3414			0.3 V_CC	V
V_IL	Low-level input voltage		TCAN3413			0.3 V_IO	V
I_IH	High-level input leakage current		TXD = V_CC = V_IO = 3.6 V	–2.5	0	1	μA
I_IL	Low-level input leakage current		TXD = 0 V, V_CC= V_IO = 3.6 V	–200	-100	–20	μA
I_LKG(OFF)	Unpowered leakage current		TXD = 3.6 V, V_CC= V_IO = 0 V	–1	0	1	μA
C_I	Input capacitance				4		pF
RXD Terminal (CAN Receive Data Output)
V_OH	High-level output voltage		TCAN3414 See Figure 6-3 , I_O = –2 mA	0.8 V_CC			V
V_OH	High-level output voltage		See Figure 6-3 , I_O = –1.5 mA, TCAN3413	0.8 V_IO			V
V_OL	Low-level output voltage		TCAN3414 See Figure 6-3 , I_O = 2 mA			0.2 V_CC	V
V_OL	Low-level output voltage		TCAN3413 See Figure 6-3 , I_O = 1.5 mA			0.2 V_IO	V
I_LKG(OFF)	Unpowered leakage current		RXD = 3.6 V, V_CC = V_IO = 0 V	–1	0	1	μA
STB Terminal (Standby Mode Input)
V_IH	High-level input voltage		TCAN3414	0.7 V_CC			V
V_IH	High-level input voltage		TCAN3413	0.7 V_IO			V
V_IL	Low-level input voltage		TCAN3414			0.3 V_CC	V
V_IL	Low-level input voltage		TCAN3413			0.3 V_IO	V
I_IH	High-level input leakage current		V_CC = V_IO = STB = 3.6 V	–2		2	μA
I_IL	Low-level input leakage current		V_CC = V_IO = 3.6 V, STB = 0 V	–20		–2	μA
I_LKG(OFF)	Unpowered leakage current		STB = 3.6V, V_CC= V_IO = 0 V	–1	0	1	μA
SHDN Terminal (Shutdown mode input)
V_IH	High-level input voltage		TCAN3414	0.7 V_CC			V
V_IL	Low-level input voltage		TCAN3414			0.3 V_CC	V
I_IH	High-level input leakage current		V_CC = V_IO = SHDN = 3.6 V	2		5.5	μA
I_IL	Low-level input leakage current		V_CC = V_IO = 3.6 V, SHDN = 0 V	–2		2	μA
I_LKG(OFF)	Unpowered leakage current		SHDN = 3.6 V, V_CC= V_IO = 0 V	–1	0	1	μA