ZHCSOR2 August 2021 TLIN1039-Q1
PRODUCTION DATA
| PARAMETER | TEST CONDITIONS | MIN | TYP | MAX | UNIT | |
|---|---|---|---|---|---|---|
| RXD Output Terminal | ||||||
| VOL | Low-level voltage | Based upon external pull-up to VCC (4) | 0.6 | V | ||
| IOL | Low-level output current, open drain | LIN = 0 V, RXD = 0.4 V | 1.5 | mA | ||
| ILKG | Leakage current, high-level | LIN = VSUP, RXD = VCC | –5 | 5 | μA | |
| TXD Input Terminal | ||||||
| VIL | Low-level input voltage | 0.8 | V | |||
| VIH | High-level input voltage | 2 | V | |||
| ILKG | Low-level input leakage current | TXD = 0 V | –5 | 5 | μA | |
| RTXD | Internal pull-down resistor value | 125 | 350 | 800 | k? | |
| EN Input Terminal | ||||||
| VIL | Low-level input voltage | –0.3 | 0.8 | V | ||
| VIH | High-level input voltage | 2 | 5.25 | V | ||
| VHYS | Hysteresis voltage | By design and characterization | 30 | 500 | mV | |
| IIL | Low-level input current | EN = 0 V | –5 | 5 | μA | |
| REN | Internal pull-down resistor | 125 | 350 | 800 | k? | |
| LIN Terminal | ||||||
| VOH | LIN recessive high-level output voltage(3) | TXD = VCC, IO = 0 mA 7 V ≤ VSUP ≤ 36 V |
0.85 | VSUP | ||
| VOH | LIN recessive high-level output voltage(3) | TXD = VCC, IO = 0 mA 4.5 V ≤ VSUP < 7 V |
3 | V | ||
| VOH | LIN recessive high-level output voltage(1) (2) | TXD = VCC, IO = 0 mA 7 V ≤ VSUP ≤ 18 V |
0.8 | VSUP | ||
| VOL | LIN dominant low-level output voltage(3) | TXD = 0 V 7 V ≤ VSUP ≤ 36 V |
0.2 | VSUP | ||
| VOL | LIN dominant low-level output voltage(3) | TXD = 0 V 4.5 V ≤ VSUP < 7 V |
1.2 | V | ||
| VOL | LIN dominant low-level output voltage(1) (2) | TXD = 0 V 7 V ≤ VSUP ≤ 18 V |
0.2 | VSUP | ||
| VBUSdom | Low-level input voltage ISO 17987 Param 17 |
LIN dominant (including LIN dominant for wake up) See Figure 8-3 and Figure 8-4 |
0.4 | VSUP | ||
| VBUSrec | High-level input voltage ISO 17987 Param 18 |
LIN recessive See Figure 8-3 and Figure 8-4 |
0.6 | VSUP | ||
| VIH | LIN recessive high-level input voltage threshold(1) (2) | 7 V ≤ VSUP ≤ 18 V | 0.47 | 0.6 | VSUP | |
| VIL | LIN dominant low-level input voltage threshold(1) (2) | 7 V ≤ VSUP ≤ 18 V | 0.4 | 0.53 | VSUP | |
| VSUP_NON_OP | VSUP where impact of recessive LIN bus < 5%(3) | TXD & RXD open 4.5 V ≤ LIN ≤ 45 V |
–0.3 | 42 | V | |
| VBUS_CNT | Receiver center threshold | VBUS_CNT = (VBUSrec + VBUSdom)/2 See Figure 8-3 and Figure 8-4 |
0.475 | 0.5 | 0.525 | VSUP |
| VHYS | Hysteresis voltage (ISO 17987) | VHYS = VBUSrec - VBUSdom
See Figure 8-3 and Figure 8-4 |
0.175 | VSUP | ||
| VHYS | Hysteresis voltage (SAE J2602) | VHYS = VIH - VIL
See Figure 8-3 and Figure 8-4 |
0.07 | 0.175 | VSUP | |
| VSERIAL_DIODE | Serial diode LIN termination pull-up path | ISERIAL_DIODE = 10 μA | 0.4 | 0.7 | 1.0 | V |
| IBUS(LIM) | Limiting current ISO 17987 Param 12 |
TXD = 0 V, VLIN = 18 V VSUP = 18 V |
40 | 90 | 200 | mA |
| IBUS_PAS_dom | Receiver leakage current, dominant | Driver off/recessive, LIN = 0 V VSUP = 12 V See Figure 8-6 |
–1 | mA | ||
| IBUS_PAS_rec1 | Receiver leakage current, recessive | Driver off/recessive, LIN ≥ VSUP
4.5 V ≤ VSUP ≤ 36 V See Figure 8-7 |
20 | μA | ||
| IBUS_PAS_rec2 | Receiver leakage current, recessive | Driver off/recessive, LIN = VSUP
See Figure 8-7 |
–5 | 5 | μA | |
| IBUS_NO_GND | Leakage current, loss of ground | GNDDevice = VSUP = 18 V RMeas = 1 k? 0 V < VLIN < 18 V |
–1 | 1 | mA | |
| Ileak gnd(dom) | Leakage current, loss of ground (5) | VSUP = 8 V, GND = open, VSUP = 18 V, GND = open RCOMMANDER = 1 k?, CL = 1 nF RRESPONDER = 20 k?, CL = 1 nF LIN = dominant |
–1 | 1 | mA | |
| Ileak gnd(rec) | Leakage current, loss of ground (5) | VSUP = 8 V, GND = open, VSUP = 18 V, GND = open RCOMMANDER = 1 k?, CL = 1 nF RRESPONDER = 20 k?, CL = 1 nF LIN = recessive |
–100 | 100 | μA | |
| IBUS_NO_BAT | Leakage current, loss of supply | VSUP = GND 0 V ≤ VLIN ≤ 18 V |
5 | μA | ||
| IRSLEEP | Pull-up current source to VSUP sleep mode | VSUP = 14 V, LIN = GND | –20 | –1.5 | μA | |
| RPU | Pull-up resistor to VSUP | Normal and standby modes | 20 | 45 | 60 | k? |
| CLIN | Capacitance of the LIN pin | VSUP = 14 V | 25 | pF | ||
| Duty Cycle Characteristics | ||||||
| D1 | Duty Cycle 1(3)
ISO 17987 Param 27 |
THREC(MAX) = 0.744 x VSUP
THDOM(MAX) = 0.581 x VSUP VSUP = 7 V to 18 V, tBIT = 50 μs D1 = tBUS_rec(min)/(2 x tBIT) See Figure 8-10 and Figure 8-11 |
0.396 | |||
| D1 | Duty Cycle 1 (3) (6) | THREC(MAX) = 0.665 x VSUP, THDOM(MAX) = 0.499 x VSUP VSUP = 4.5 V to 7 V, tBIT = 50 μs D1 = tBUS_rec(min)/(2 x tBIT) See Figure 8-10 and Figure 8-11 |
0.396 | |||
| D1 | Duty cycle 1(1) (2) (6) | THREC(MAX) = 0.744 x VSUP, THDOM(MAX) = 0.581 x VSUP, VSUP = 7 V to 18 V, tBIT = 52 μs D1 = tBUS_rec(min)/(2 x tBIT) See Figure 8-10 and Figure 8-11 |
0.396 | |||
| D2 | Duty Cycle 2(3)
ISO 17987 Param 28 |
THREC(MIN) = 0.422 x VSUP
THDOM(MIN) = 0.284 x VSUP VSUP = 7 V to 18 V, tBIT = 50 μs D2 = tBUS_rec(MAX)/(2 x tBIT) See Figure 8-10 and Figure 8-11 |
0.581 | |||
| D2 | Duty cycle 2(3) (6) | THREC(MIN) = 0.496 x VSUP, THDOM(MIN) = 0.361 x VSUP, VSUP = 4.5 V to 7 V, tBIT = 50 μs D2 = tBUS_rec(MAX)/(2 x tBIT) See Figure 8-10 and Figure 8-11 |
0.581 | |||
| D2 | Duty cycle 2(1) (2) (6) | THREC(MIN) = 0.422 x VSUP, THDOM(MIN) = 0.284 x VSUP, VSUP = 7 V to 18 V, tBIT = 52 μs D2 = tBUS_rec(MAX)/(2 x tBIT) See Figure 8-10 and Figure 8-11 |
0.581 | |||
| D3 | Duty Cycle 3(3)
ISO 17987 Param 29 |
THREC(MAX) = 0.778 x VSUP
THDOM(MAX) = 0.616 x VSUP VSUP = 7 V to 18 V, tBIT = 96 μs D3 = tBUS_rec(min)/(2 x tBIT) See Figure 8-10 and Figure 8-11 |
0.417 | |||
| D3 | Duty Cycle 3(3) (6) | THREC(MAX) = 0.665 x VSUP
THDOM(MAX) = 0.499 x VSUP VSUP = 4.5 V to 7 V, tBIT = 96 μs D3 = tBUS_rec(min)/(2 x tBIT) See Figure 8-10 and Figure 8-11 |
0.417 | |||
| D3 | Duty cycle 3(1) (2) (6) | THREC(MAX) = 0.778 x VSUP
THDOM(MAX) = 0.616 x VSUP VSUP = 7 V to 18 V, tBIT = 96 μs D3 = tBUS_rec(min)/(2 x tBIT) See Figure 8-10 and Figure 8-11 |
0.417 | |||
| D4 | Duty Cycle 4(3)
ISO 17987 Param 30 |
THREC(MIN) = 0.389 x VSUP
THDOM(MIN) = 0.251 x VSUP VSUP = 7 V to 18 V, tBIT = 96 μs D4 = tBUS_rec(MAX)/(2 x tBIT) See Figure 8-10 and Figure 8-11 |
0.59 | |||
| D4 | Duty Cycle 4(3) (6) | THREC(MAX) = 0.496 x VSUP
THDOM(MAX) = 0.361 x VSUP VSUP = 4.5 V to 7 V, tBIT = 96 μs D4 = tBUS_rec(MAX)/(2 x tBIT) See Figure 8-10 and Figure 8-11 |
0.59 | |||
| D4 | Duty cycle 4(1) (2) (6) | THREC(MIN) = 0.389 x VSUP
THDOM(MIN) = 0.251 x VSUP VSUP = 7 V to 18 V, tBIT = 96 μs D4 = tBUS_rec(MAX)/(2 x tBIT) See Figure 8-10 and Figure 8-11 |
0.59 | |||
| D1LB | Duty cycle 1 at low battery(1) (2) (6) | THREC(MAX) = 0.665 x VSUP, THDOM(MAX) = 0.499 x VSUP, VSUP = 5.5 V to 7 V, tBIT = 52 μs |
0.396 | |||
| D2LB | Duty cycle 2 at low battery(1) (2) (6) | THREC(MAX) = 0.496 x VSUP
THDOM(MAX) = 0.361 x VSUP VSUP = 6.1 V to 7 V, tBIT = 52 μs |
0.581 | |||
| D3LB | Duty cycle 3 at low battery(1) (2) (6) | THREC(MAX) = 0.665 x VSUP, THDOM(MAX) = 0.499 x VSUP, VSUP = 5.5 V to 7 V, tBIT = 96 μs |
0.396 | |||
| D4LB | Duty cycle 4 at low battery(1) (2) (6) | THREC(MAX) = 0.496 x VSUP
THDOM(MAX) = 0.361 x VSUP VSUP = 6.1 V to 7 V, tBIT = 96 μs |
0.581 | |||
| Tr-d max_D1 | Transmitter propagation delay timings for the duty cycle(1)
(2)
(6) Recessive to dominant |
THREC(MAX) = 0.744 x VSUP, THDOM(MAX) = 0.581 x VSUP 7 V ≤ VSUP ≤ 18 V, tBIT = 52 μs tREC(MAX)_D1 - tDOM(MIN)_D1 |
10.8 | μs | ||
| Td-r max_D2 | Transmitter propagation delay timings for the duty cycle(1)
(2)
(6) Dominant to recessive |
THREC(MAX) = 0.422 x VSUP, THDOM(MAX) = 0.284 x VSUP 7 V ≤ VSUP ≤ 18 V, tBIT = 52 μs tDOM(MAX)_D2 - tREC(MIN)_D2 |
8.4 | μs | ||
| Tr-d max_D3 | Transmitter propagation delay timings for the duty cycle(1)
(2)
(6) Recessive to dominant |
THREC(MAX) = 0.778 x VSUP
THDOM(MAX) = 0.616 x VSUP 7 V ≤ VSUP ≤ 18 V, tBIT = 96 μs tREC(MAX)_D3 - tDOM(MIN)_D3 |
15.9 | μs | ||
| Td-r max_D4 | Transmitter propagation delay timings for the duty cycle(1)
(2)
(6) Dominant to recessive |
THREC(MIN) = 0.389 x VSUP
THDOM(MIN) = 0.251 x VSUP 7 V ≤ VSUP ≤ 18 V, tBIT = 96 μs tDOM(MAX)_D4 - tREC(MIN)_D4 |
17.28 | μs | ||
| Tr-d max_low | Low battery transmitter propagation delay timings for the duty cycle(1)
(2)
(6) Recessive to dominant |
THREC(MAX) = 0.665 x VSUP, THDOM(MAX) = 0.499 x VSUP 5.5 V ≤ VSUP ≤ 7 V, tBIT = 52 μs tREC(MAX)_low - tDOM(MIN)_low |
10.8 | μs | ||
| Td-r max_low | Low battery transmitter propagation delay timings for the duty cycle(1)
(2)
(6) Dominant to recessive |
THREC(MAX) = 0.496 x VSUP
THDOM(MAX) = 0.361 x VSUP 6.1 V ≤ VSUP ≤ 7 V, tBIT = 52 μs tDOM(MAX)_low - tREC(MIN)_low |
8.4 | μs | ||