SLLSES9D Data sheet

SLLSES9D February 2016 – October 2021 TCAN1042-Q1 , TCAN1042G-Q1 , TCAN1042GV-Q1 , TCAN1042H-Q1 , TCAN1042HG-Q1 , TCAN1042HGV-Q1 , TCAN1042HV-Q1 , TCAN1042V-Q1

PRODUCTION DATA

Package Options

Mechanical Data (Package|Pins)

D|8
- MSOI002K
DRB|8
- MPDS118K

Thermal pad, mechanical data (Package|Pins)

DRB|8
- QFND562A

Orderable Information

7.7 Electrical Characteristics

Over recommended operating conditions with T_A = –55°C to 125°C (unless otherwise noted).

PARAMETER			TEST CONDITIONS	MIN	TYP⁽¹⁾	MAX	UNIT
Supply Characteristics
I_CC	5-V supply current	Normal mode (dominant)	See Figure 8-1, TXD = 0 V, R_L = 60 Ω, C_L = open, R_CM = open, STB = 0 V, Typical Bus Load		40	70	mA
		Normal mode (dominant)	See Figure 8-1, TXD = 0 V, R_L = 50 Ω, C_L = open, R_CM = open, STB = 0 V, High Bus Load		45	80
		Normal mode (dominant – with bus fault)	See Figure 8-1, TXD = 0 V, STB = 0 V, CANH = -12 V, R_L = open, C_L = open, R_CM = open			110
		Normal mode (recessive)	See Figure 8-1, TXD = V_CC or V_IO, R_L = 50 Ω, C_L = open, R_CM = open, STB = 0 V		1.5	2.5
		Standby mode	Devices with the "V" suffix (I/O level-shifting), V_CC not needed in Standby mode, See Figure 8-1, TXD = V_IO, R_L = 50 Ω, C_L = open, R_CM = open, STB = V_IO		0.5	5	µA
		Standby mode	Devices without the "V" suffix (5-V only), See Figure 8-1, TXD = V_CC, R_L = 50 Ω, C_L = open, R_CM = open, STB = V_CC			22
I_IO	I/O supply current	Normal mode	RXD floating, TXD = STB = 0 or 5.5 V		90	300
I_IO	I/O supply current	Standby mode	RXD floating, TXD = STB = V_IO, V_CC = 0 or 5.5 V		12	17
UV_VCC	Rising undervoltage detection on V_CC for protected mode		All devices		4.2	4.4	V
UV_VCC	Falling undervoltage detection on V_CC for protected mode			3.8	4.0	4.25	V
V_HYS(UVVCC)	Hysteresis voltage on UV_VCC				200		mV
UV_VIO	Undervoltage detection on V_IO for protected mode		Devices with the "V" suffix (I/O level-shifting)	1.3		2.75	V
V_HYS(UVVIO)	Hysteresis voltage on UV_VIO for protected mode		Devices with the "V" suffix (I/O level-shifting)		80		mV
STB Terminal (Mode Select Input)
V_IH	High-level input voltage		Devices with the "V" suffix (I/O level-shifting)	0.7 x V_IO			V
V_IH	High-level input voltage		Devices without the "V" suffix (5-V only)	2
V_IL	Low-level input voltage		Devices with the "V" suffix (I/O level-shifting)			0.3 x V_IO
V_IL	Low-level input voltage		Devices without the "V" suffix (5-V only)			0.8
I_IH	High-level input leakage current		STB = V_CC = V_IO = 5.5 V	-2		2	µA
I_IL	Low-level input leakage current		STB = 0V, V_CC = V_IO = 5.5 V	–20	0	-2
I_lkg(OFF)	Unpowered leakage current		STB = 5.5 V, V_CC = V_IO = 0 V	-1	0	1
TXD Terminal (CAN Transmit Data Input)
V_IH	High-level input voltage		Devices with the "V" suffix (I/O level-shifting)	0.7 x V_IO			V
V_IH	High-level input voltage		Devices without the "V" suffix (5-V only)	2
V_IL	Low-level input voltage		Devices with the "V" suffix (I/O level-shifting)			0.3 x V_IO
V_IL	Low-level input voltage		Devices without the "V" suffix (5-V only)			0.8
I_IH	High-level input leakage current		TXD = V_CC = V_IO = 5.5 V	–2.5	0	1	µA
I_IL	Low-level input leakage current		TXD = 0 V, V_CC = V_IO = 5.5 V	–100	-25	–7
I_lkg(OFF)	Unpowered leakage current		TXD = 5.5 V, V_CC = V_IO = 0 V	–1	0	1
C_I	Input capacitance		V_IN = 0.4 x sin(2 x π x 2 x 10⁶ x t) + 2.5 V		5		pF
RXD Terminal (Can Receive Data Output)
V_OH	High-level output voltage		Devices with the "V" suffix (I/O level-shifting), See Figure 8-2, I_O = –2 mA.	0.8 × V_IO			V
V_OH	High-level output voltage		Devices without the "V" suffix (5V only), See Figure 8-2, I_O = –2 mA.	4	4.6
V_OL	Low-level output voltage		Devices with the "V" suffix (I/O level-shifting), See Figure 8-2, I_O = +2 mA.			0.2 x V_IO
V_OL	Low-level output voltage		Devices without the "V" suffix (5-V only), See Figure 8-2, I_O = +2 mA.		0.2	0.4
I_lkg(OFF)	Unpowered leakage current		RXD = 5.5 V, V_CC = 0 V, V_IO = 0 V	–1	0	1	µA
Driver Electrical Characteristics
V_O(DOM)	Bus output voltage (dominant)	CANH	See Figure 8-1 and Figure 9-3, TXD = 0 V, STB = 0 V, 50 Ω ≤ R_L ≤ 65 Ω, C_L = open, R_CM = open	2.75		4.5	V
V_O(DOM)	Bus output voltage (dominant)	CANL		0.5		2.25
V_O(REC)	Bus output voltage (recessive)	CANH and CANL	See Figure 8-1 and Figure 9-3, TXD = V_CC or V_IO, V_IO = V_CC, STB = 0 V , R_L = open (no load), R_CM = open	2	0.5 × V_CC	3
V_O(STB)	Bus output voltage (Standby mode)	CANH	See Figure 8-1 and Figure 9-3, STB = V_IO, R_L = open (no load), R_CM = open	-0.1	0	0.1
		CANL		-0.1	0	0.1
		CANH - CANL		-0.2	0	0.2
V_OD(DOM)	Differential output voltage (dominant)	CANH - CANL	See Figure 8-1 and Figure 9-3, TXD = 0 V, STB = 0 V, 45 Ω ≤ R_L < 50 Ω, C_L = open, R_CM = open	1.4		3
			See Figure 8-1 and Figure 9-3, TXD = 0 V, STB = 0 V, 50 Ω ≤ R_L ≤ 65 Ω, C_L = open, R_CM = open	1.5		3
			See Figure 8-1 and Figure 9-3, TXD = 0 V, STB = 0 V, R_L = 2240 Ω, C_L = open, R_CM = open	1.5		5
V_OD(REC)	Differential output voltage (recessive)	CANH - CANL	See Figure 8-1 and Figure 9-3, TXD = V_CC, STB = 0 V, R_L = 60 Ω, C_L = open, R_CM = open	–120		12	mV
V_OD(REC)	Differential output voltage (recessive)	CANH - CANL	See Figure 8-1 and Figure 9-3, TXD = V_CC, STB = 0 V, R_L = open (no load), C_L = open, R_CM = open	–50		50	mV
V_SYM	Output symmetry (dominant or recessive) ( V_O(CANH) + V_O(CANL)) / V_CC		See Figure 8-1 and Figure 10-2, STB at 0 V, R_term = 60 Ω, C_split = 4.7 nF, C_L = open, R_CM = open, T_XD = 250 kHz, 1 MHz	0.9		1.1	V/V
V_{SYM_DC}	DC Output symmetry (dominant or recessive) (V_CC – V_O(CANH) – V_O(CANL))		See Figure 8-1 and Figure 9-3, STB = 0 V, R_L = 60 Ω, C_L = open, R_CM = open	–0.4		0.4	V
I_{OS(SS_DOM)}	Short-circuit steady-state output current, dominant, Normal mode		See Figure 9-3 and Figure 8-7, STB at 0 V, V_CANH = -5 V to 40 V, CANL = open, TXD = 0 V	–100			mA
I_{OS(SS_DOM)}			See Figure 9-3 and Figure 8-7, STB at 0 V, V_CANL = -5 V to 40 V, CANH = open, TXD = 0 V			100	mA
I_{OS(SS_REC)}	Short-circuit steady-state output current, recessive, Normal mode		See Figure 9-3 and Figure 8-7, STB at 0 V, –27 V ≤ V_BUS ≤ 32 V, Where V_BUS = CANH = CANL, TXD = V_CC	–5		5	mA
Receiver Electrical Characteristics
V_CM	Common mode range, Normal mode		See Figure 8-2 and Table 8-1, STB = 0 V	-30		+30	V
V_IT+	Positive-going input threshold voltage, Normal mode		See Figure 8-2, Table 9-5 and Table 8-1, STB = 0 V, -20 V ≤ V_CM ≤ +20 V			900	mV
V_IT–	Negative-going input threshold voltage, Normal mode			500
V_IT+	Positive-going input threshold voltage, Normal mode		See Figure 8-2, Table 9-5 and Table 8-1, STB = 0 V, -30 V ≤ V_CM ≤ +30 V			1000
V_IT–	Negative-going input threshold voltage, Normal mode			400
V_HYS	Hysteresis voltage (V_IT+ - V_IT–), Normal mode		See Figure 8-2, Table 9-5 and Table 8-1, STB = 0 V		120
V_CM	Common mode range, Standby mode		Devices with the "V" suffix (I/O level-shifting), See Figure 8-2, Table 9-5 and Table 8-1, STB = V_IO, 4.5 V ≤ V_IO ≤ 5.5 V	-12		12	V
			Devices with the "V" suffix (I/O level-shifting), See Figure 8-2, Table 9-5 and Table 8-1, STB = V_IO, 3.0 V ≤ V_IO ≤ 4.5 V	-2		+7
			Devices without the "V" suffix (5V only), See Figure 8-2, Table 9-5 and Table 8-1, STB = V_CC	-12		12
V_IT(STANDBY)	Input threshold voltage, Standby mode		STB = V_CC or V_IO	400		1150	mV
I_LKG(IOFF)	Power-off (unpowered) bus input leakage current		CANH = CANL = 5 V, V_CC = V_IO = 0 V			4.8	µA
C_I	Input capacitance to ground (CANH or CANL)		TXD = V_CC, V_IO = V_CC		24	30	pF
C_ID	Differential input capacitance (CANH to CANL)		TXD = V_CC, V_IO = V_CC		12	15	pF
R_ID	Differential input resistance		TXD = V_CC = V_IO = 5 V, STB = 0 V, -30 V ≤ V_CM ≤ +30 V	30		80	kΩ
R_IN	Input resistance (CANH or CANL)		TXD = V_CC = V_IO = 5 V, STB = 0 V, -30 V ≤ V_CM ≤ +30 V	15		40	kΩ
R_IN(M)	Input resistance matching: [1 – R_IN(CANH) / R_IN(CANL)] × 100%		V_CANH = V_CANL = 5 V	–2%		+2%

(1) All typical values are at 25°C and supply voltages of V_CC = 5 V and V_IO = 5 V (if applicable), R_L = 60 Ω.