SLLSF70C September 2018 – February 2022 TCAN1046V-Q1
PRODUCTION DATA
| PARAMETER | TEST CONDITIONS | MIN | TYP | MAX | UNIT | ||
|---|---|---|---|---|---|---|---|
| Driver Electrical Characteristics | |||||||
| VO(DOM) | Dominant output voltage Normal mode | CANH | TXD = 0 V, STB = 0 V, 50 Ω ≤ RL ≤ 65 Ω, CL =
open, RCM = open See Figure 7-2 and Figure 8-3, |
2.75 | 4.5 | V | |
| CANL | 0.5 | 2.25 | V | ||||
| VO(REC) | Recessive output voltage Normal mode | CANH and CANL | TXD = VIO, STB = 0 V, RL = open (no load),
RCM = open See Figure 7-2 and Figure 8-3 |
2 | 0.5 VCC | 3 | V |
| VSYM | Driver symmetry (VO(CANH) + VO(CANL))/VCC |
STB = 0 V, RL = 60 Ω, CSPLIT = 4.7
nF, CL = open, RCM = open, TXD = 250 kHz, 1
MHz, 2.5 MHz See Figure 7-2 and Figure 9-2 |
0.9 | 1.1 | V/V | ||
| VSYM_DC | DC output symmetry (VCC - VO(CANH) - VO(CANL)) |
STB = 0 V, RL = 60 Ω, CL = open See Figure 7-2 and Figure 8-3 |
–400 | 400 | mV | ||
| VOD(DOM) | Differential output voltage Normal mode Dominant |
CANH - CANL | TXD = 0 V, STB = 0 V, 50 Ω ≤ RL ≤ 65 Ω, CL =
open See Figure 7-2 and Figure 8-3 |
1.5 | 3 | V | |
| TXD = 0 V, STB = 0 V, 45 Ω ≤ RL ≤ 70 Ω, CL =
open See Figure 7-2 and Figure 8-3 |
1.4 | 3.3 | V | ||||
| TXD = 0 V, STB = 0 V, RL = 2240 Ω, CL = open See Figure 7-2 and Figure 8-3 |
1.5 | 5 | V | ||||
| VOD(REC) | Differential output voltage Normal mode Recessive |
CANH - CANL | TXD = VIO, STB = 0 V, RL = 60 Ω, CL = open See Figure 7-2 and Figure 8-3 |
–120 | 12 | mV | |
| TXD = VIO, STB = 0 V, RL = open, CL = open See Figure 7-2 and Figure 8-3 |
–50 | 50 | mV | ||||
| VO(STB) | Bus output voltage Standby mode |
CANH | STB = VIO, RL = open (no load) See Figure 7-2 and Figure 8-3 |
-0.1 | 0.1 | V | |
| CANL | -0.1 | 0.1 | V | ||||
| CANH - CANL | -0.2 | 0.2 | V | ||||
| IOS(SS_DOM) | Short-circuit steady-state output
current, dominant Normal mode |
STB = 0 V, V(CANH) = -15 V to 40 V, CANL =
open, TXD = 0 V See Figure 7-7 and Figure 8-3 |
–115 | mA | |||
| STB = 0 V, V(CAN_L) = -15 V to 40 V, CANH =
open, TXD = 0 V See Figure 7-7 and Figure 8-3 |
115 | mA | |||||
| IOS(SS_REC) | Short-circuit steady-state output current,
recessive Normal mode |
STB = 0 V, –27 V ≤ VBUS ≤ 32 V, where
VBUS = CANH = CANL, TXD = VIO See Figure 7-7 and Figure 8-3 |
–5 | 5 | mA | ||
| Receiver Electrical Characteristics | |||||||
| VIT | Input threshold voltage Normal mode |
STB = 0 V, -12 V ≤ VCM ≤ 12 V See Figure 7-3, Table 7-1, and Table 8-5 |
500 | 900 | mV | ||
| VIT(STB) | Input threshold Standby mode |
STB = VIO, -12 V ≤ VCM ≤ 12 V See Figure 7-3, Table 7-1, and Table 8-5 |
400 | 1150 | mV | ||
| VDOM | Dominant state differential input voltage range Normal mode |
STB = 0 V, -12 V ≤ VCM ≤ 12 V See Figure 7-3, Table 7-1, and Table 8-5 |
0.9 | 9 | V | ||
| VREC | Recessive state differential input voltage range Normal mode |
STB = 0 V, -12 V ≤ VCM ≤ 12 V See Figure 7-3, Table 7-1, and Table 8-5 |
-4 | 0.5 | V | ||
| VDOM(STB) | Dominant state differential input voltage range Standby mode |
STB = VIO, -12 V ≤ VCM ≤ 12 V See Figure 7-3, Table 7-1, and Table 8-5 |
1.15 | 9 | V | ||
| VREC(STB) | Recessive state differential input voltage range Standby mode |
STB = VIO, -12 V ≤ VCM ≤ 12 V See Figure 7-3, Table 7-1, and Table 8-5 |
-4 | 0.4 | V | ||
| VHYS | Hysteresis voltage for input threshold Normal mode |
STB = 0 V, -12 V ≤ VCM ≤ 12 V See Figure 7-3, Table 7-1, and Table 8-5 |
100 | mV | |||
| VCM | Common mode range Normal and standby modes |
See Figure 7-3 and Table 8-5Table 8-5 | –12 | 12 | V | ||
| ILKG(IOFF) | Unpowered bus input leakage current | CANH = CANL = 5 V, VCC = VIO = GND | 5 | µA | |||
| CI | Input capacitance to ground (CANH or CANL) | TXD = VIO(1) |
20 | pF | |||
| CID | Differential input capacitance | 10 | pF | ||||
| RID | Differential input resistance | TXD = VIO(1), STB = 0 V, -12 V ≤ VCM ≤ 12 V | 40 | 90 | kΩ | ||
| RIN | Single ended input resistance (CANH or CANL) |
20 | 45 | kΩ | |||
| TXD Terminal (CAN Transmit Data Input) | |||||||
| VIH | High-level input voltage | 0.7 VIO | V | ||||
| VIL | Low-level input voltage | 0.3 VIO | V | ||||
| IIH | High-level input leakage current | TXD = VCC = VIO = 5.5 V | –2.5 | 0 | 1 | µA | |
| IIL | Low-level input leakage current | TXD = 0 V, VCC= VIO = 5.5 V | –200 | -100 | –20 | µA | |
| ILKG(OFF) | Unpowered leakage current | TXD = 5.5 V, VCC= VIO = 0 V | –1 | 0 | 1 | µA | |
| RXD Terminal (CAN Receive Data Output) | |||||||
| VOH | High-level output voltage | IO = –2 mA, See Figure 7-3 |
0.8 VIO | V | |||
| VOL | Low-level output voltage | IO = –2 mA, See Figure 7-3 |
0.2 VIO | V | |||
| STB Terminal (Standby Mode Input) | |||||||
| VIH | High-level input voltage | 0.7 VIO | V | ||||
| VIL | Low-level input voltage | 0.3 VIO | V | ||||
| IIH | High-level input leakage current | VCC = VIO = STB = 5.5 V | –2 | 2 | µA | ||
| IIL | Low-level input leakage current | VCC = VIO = 5.5 V, STB = 0 V | –20 | –2 | µA | ||
| ILKG(OFF) | Unpowered leakage current | STB = 5.5V, VCC = VIO = 0 V | –1 | 0 | 1 | µA | |