SLLSF59C Data sheet

SLLSF59C July 2020 – March 2022 TLIN2027-Q1

PRODUCTION DATA

Package Options

Mechanical Data (Package|Pins)

D|8
- MSOI002K
DRB|8
- MPDS118K

Thermal pad, mechanical data (Package|Pins)

DRB|8
- QFND619

Orderable Information

7.7 Switching Characteristics

parameters valid across -40℃ ≤ T_A ≤ 125℃ (unless otherwise noted)

PARAMETER		TEST CONDITIONS	MIN	MAX
D1_12V	Duty Cycle 1 (ISO/DIS 17987 Param 27)⁽¹⁾	TH_REC(MAX) = 0.744 x V_SUP, TH_DOM(MAX) = 0.581 x V_SUP, V_SUP = 4 V to 7.4 V, t_BIT = 50 µs (20 kbps), D1 = t_{BUS_rec(min)}/(2 x t_BIT) (See Figure 8-11, Figure 8-12)	0.396
D1_12V	Duty Cycle 1	TH_REC(MAX) = 0.625 x V_SUP, TH_DOM(MAX) = 0.581 x V_SUP, V_SUP = 7.4 V to 9.4 V, t_BIT = 50 µs (20 kbps), D1 = t_{BUS_rec(min)}/(2 x t_BIT) (See Figure 8-11, Figure 8-12)	0.368
D1_12V	Duty Cycle 1 (ISO/DIS 17987 Param 27)	TH_REC(MAX) = 0.744 x V_SUP, TH_DOM(MAX) = 0.581 x V_SUP, V_SUP = 9.4 V to 18 V, t_BIT = 50 µs (20 kbps), D1 = t_{BUS_rec(min)}/(2 x t_BIT) (See Figure 8-11, Figure 8-12)	0.396
D2_12V	Duty Cycle 2 (ISO/DIS 17987 Param 28)	TH_REC(MIN) = 0.422 x V_SUP, TH_DOM(MIN) = 0.284 x V_SUP, V_SUP = 4 V to 7.4 V, t_BIT = 50 µs (20 kbps), D2 = t_{BUS_rec(MAX)}/(2 x t_BIT) (See Figure 8-11, Figure 8-12)		0.581
D2_12V	Duty Cycle 2	TH_REC(MIN) = 0.422 x V_SUP, TH_DOM(MIN) = 0.284 x V_SUP, V_SUP = 7.4 V to 9.4 V, t_BIT = 50 µs (20 kbps), D2 = t_{BUS_rec(MAX)}/(2 x t_BIT) (See Figure 8-11, Figure 8-12)		0.67
D2_12V	Duty Cycle 2 (ISO/DIS 17987 Param 28)	TH_REC(MIN) = 0.422 x V_SUP, TH_DOM(MIN) = 0.284 x V_SUP, V_SUP = 9.4 V to 18 V, t_BIT = 50 µs (20 kbps), D2 = t_{BUS_rec(MAX)}/(2 x t_BIT) (See Figure 8-11, Figure 8-12)		0.581
D3_12V	Duty Cycle 3 (ISO/DIS 17987 Param 29)	TH_REC(MAX) = 0.778 x V_SUP, TH_DOM(MAX) = 0.616 x V_SUP, V_SUP = 7 V to 18 V, t_BIT = 96 µs (10.4 kbps), D3 = t_{BUS_rec(min)}/(2 x t_BIT) (See Figure 8-11, Figure 8-12)	0.417
D3_12V	Duty Cycle 3	TH_REC(MAX) = 0.645 x V_SUP, TH_DOM(MAX) = 0.616 x V_SUP, V_SUP = 4 V to 7 V, t_BIT = 96 µs (10.4 kbps), D3 = t_{BUS_rec(min)}/(2 x t_BIT) (See Figure 8-11, Figure 8-12)	0.417
D4_12V	Duty Cycle 4 (ISO/DIS 17987 Param 30)	TH_REC(MIN) = 0.389 x V_SUP, TH_DOM(MIN) = 0.251 x V_SUP, V_SUP = 4.6 V to 7.4 V, t_BIT = 96 µs (10.4 kbps), D4 = t_{BUS_rec(MAX)}/(2 x t_BIT) (See Figure 8-11, Figure 8-12)		0.59
D4_12V	Duty Cycle 4	TH_REC(MIN) = 0.389 x V_SUP, TH_DOM(MIN) = 0.251 x V_SUP, V_SUP = 7.4 V to 9.4 V, t_BIT = 96 µs (10.4 kbps), D4 = t_{BUS_rec(MAX)}/(2 x t_BIT) (See Figure 8-11, Figure 8-12)		0.6
D4_12V	Duty Cycle 4 (ISO/DIS 17987 Param 30)	TH_REC(MIN) = 0.389 x V_SUP, TH_DOM(MIN) = 0.251 x V_SUP, V_SUP = 7.4 V to 18 V, t_BIT = 96 µs (10.4 kbps), D4 = t_{BUS_rec(MAX)}/(2 x t_BIT) (See Figure 8-11, Figure 8-12)		0.59
D1_24V	Duty Cycle 1 (ISO/DIS 17987 Param 72)⁽¹⁾	TH_REC(MAX) = 0.710 x V_SUP, TH_DOM(MAX) = 0.544 x V_SUP, V_SUP = 15 V to 36 V, t_BIT = 50 µs (20 kbps), D1 = t_{BUS_rec(min)}/(2 x t_BIT) (See Figure 8-11, Figure 8-12)	0.33
D2_24V	Duty Cycle 2 (ISO/DIS 17987 Param 73)	TH_REC(MIN) = 0.446 x V_SUP, TH_DOM(MIN) = 0.302 x V_SUP, V_SUP = 15.6 V to 36 V, t_BIT = 50 µs (20 kbps), D2 = t_{BUS_rec(MAX)}/(2 x t_BIT) (See Figure 8-11, Figure 8-12)		0.642
D3_24V	Duty Cycle 3 (ISO/DIS 17987 Param 74)	TH_REC(MAX) = 0.744 x V_SUP, TH_DOM(MAX) = 0.581 x V_SUP, V_SUP = 7 V to 36 V, t_BIT = 96 µs (10.4 kbps), D3 = t_{BUS_rec(min)}/(2 x t_BIT) (See Figure 8-11, Figure 8-12)	0.386
D3_24V	Duty Cycle	TH_REC(MAX) = 0.645 x V_SUP, TH_DOM(MAX) = 0.581 x V_SUP, V_SUP = 4 V to 7 V, t_BIT = 96 µs (10.4 kbps), D3 = t_{BUS_rec(min)}/(2 x t_BIT) (See Figure 8-11, Figure 8-12)	0.386
D4_24V	Duty Cycle 4 (ISO/DIS 17987 Param 75)	TH_REC(MIN) = 0.422 x V_SUP, TH_DOM(MIN) = 0.284 x V_SUP, V_SUP = 4.6 V to 36 V, t_BIT = 96 µs (10.4 kbps), D4 = t_{BUS_rec(MAX)}/(2 x t_BIT) (See Figure 8-11, Figure 8-12)		0.591

(1) Duty cycles: LIN driver bus load conditions (C_LIN, R_LIN): Load1 = 1 nF, 1 kΩ; Load2 = 10 nF, 500 Ω, Load3 = 6.8 nF, 660 Ω. Duty cycles 3 and 4 are defined for 10.4-kbps operation. The TLIN2027 also meets these lower data rate requirements, while it is capable of the higher speed 20-kbps operation as specified by duty cycles 1 and 2. SAEJ2602 derives propagation delay equations from the LIN 2.0 duty cycle definitions, for details see the SAEJ2602 specification