JAJSIB4E December 2015 – December 2019 TCAN330 , TCAN330G , TCAN332 , TCAN332G , TCAN334 , TCAN334G , TCAN337 , TCAN337G
PRODUCTION DATA.
PARAMETER | TEST CONDITIONS | MIN | TYP | MAX | UNIT | ||
---|---|---|---|---|---|---|---|
Supply | |||||||
ICC | Supply current Normal Mode | Dominant | See Figure 18. TXD = 0 V, RL = 60 Ω, CL = open, S, STB and SHDN = 0 V. Typical Bus Load. | 55 | mA | ||
See Figure 18. TXD = 0 V, RL = 50 Ω, CL = open, S, STB and SHDN = 0 V. High Bus Load. | 60 | ||||||
Dominant with bus fault | See Figure 18. TXD = 0 V, S, STB and SHDN = 0 V, CANH = -12 V, RL = open, CL = open | 180 | |||||
Recessive | See Figure 18. TXD = VCC, RL = 50 Ω, CL = open, S, STB and SHDN = 0 V | 3.5 | |||||
Supply Current: Silent Mode | See Figure 18. TXD = VCC, RL = 50 Ω, CL = open, S = VCC | 2.5 | |||||
Supply Current: Standby Mode | TA < 85°C, STB at VCC, RXD floating, TXD at VCC | 15 | µA | ||||
STB at VCC, RXD floating, TXD at VCC | 20 | ||||||
Supply Current: Shutdown Mode | TA < 85°C, SHDN at VCC, RXD floating, TXD at VCC | 1 | |||||
SHDN = VCC, RXD floating, TXD at VCC | 2.5 | ||||||
UV(VCC) | Rising under voltage detection on VCC for protected mode | 2.2 | 2.6 | V | |||
Falling under voltage detection on VCC for protected mode | 1.65 | 2 | 2.5 | ||||
VHYS(UVVCC) | Hysteresis voltage on UV(VCC) | 200 | mV | ||||
Driver | |||||||
VO(D) | Bus output voltage (dominant) | CANH | See Figure 31 and Figure 19, TXD = 0 V, S, STB and SHDN = 0 V, RL = 60 Ω, CL = open | 2.45 | VCC | V | |
CANL | 0.5 | 1.25 | |||||
VO(R) | Bus output voltage (recessive) | See Figure 31 and Figure 19, TXD = VCC, STB, SHDN = 0 V, S = 0 V or VCC(1), RL = open (no load) | 1.85 | V | |||
VOD(D) | Differential output voltage (dominant) | See Figure 31 and Figure 19, TXD = 0 V, S, STB and SHDN = 0 V, 50 Ω ≤ RL ≤ 65 Ω, CL = open | 1.6 | 3 | V | ||
See Figure 31 and Figure 19, TXD = 0 V, S, STB and SHDN = 0 V, 45 Ω ≤ RL < 50 Ω, CL = open | 1.5 | 3 | |||||
VOD(R) | Differential output voltage (recessive) | See Figure 31 and Figure 19, TXD = VCC, S, STB and SHDN = 0 V, RL = 60 Ω, CL = open | –120 | 12 | mV | ||
TA < 85°C, See Figure 31 and Figure 19, TXD = VCC, S, STB and SHDN = 0 V, RL = open (no load), CL = open | –50 | 50 | |||||
See Figure 31 and Figure 19, TXD = VCC, S, STB and SHDN = 0 V, RL = open (no load), CL = open | –50 | 100 | |||||
V(SYM) | Output symmetry (dominant and recessive)
(CANHREC + CANLREC – CANHDOM – CANLDOM) |
See Figure 31 and Figure 19, S, STB and SHDN = 0 V, RL = 60 Ω, CL = open | –400 | 400 | mV | ||
IOS(DOM) | Short-circuit steady-state output current, Dominant | See Figure 26, V(CANH) = –12 V, CANL = open, TXD = 0 V | –200 | mA | |||
See Figure 26, V(CANL) = 12 V, CANH = open, TXD = 0 V | 200 | ||||||
IOS(REC) | Short-circuit steady-state output current, Recessive | See Figure 26, –12 V ≤ VBUS ≤ 12 V, VBUS = CANH = CANL, TXD = VCC | –5 | 5 | mA | ||
Receiver | |||||||
VIT | Input threshold voltage, normal modes and selective wake modes | See Figure 20 and Table 7 | 500 | 900 | mV | ||
VHYS | Hysteresis voltage for input threshold, normal modes and selective wake modes | 120 | |||||
VCM | Common Mode Range: normal and silent modes | –12 | 12 | V | |||
VIT(STB) | Input Threshold, standby mode | –2 V < VCM < 7 V
See Figure 20 and Table 7 |
400 | 1150 | mV | ||
–12 V < VCM < 12 V
See Figure 20 and Table 7 |
400 | 1350 | mV | ||||
IIOFF(LKG) | Power-off (unpowered) bus input leakage current | TA < 85°C, CANH = CANL = 3.3 V, VCC to GND via 0-Ω and 47-kΩ resistor | 6 | µA | |||
CANH = CANL = 3.3 V, VCC to GND via 0-Ω and 47-kΩ resistor | 12 | ||||||
CI | Input capacitance to ground (CANH or CANL) | 20 | pF | ||||
CID | Differential input capacitance | 10 | |||||
RID | Differential input resistance | TXD = VCC, Normal Mode | 30 | 80 | kΩ | ||
RIN | Input resistance (CANH or CANL) | TXD = VCC, Normal mode | 15 | 40 | |||
RIN(M) | Input resistance matching: [1 – (RIN(CANH) / RIN(CANL))] × 100 % | V(CANH) = V(CANL) | –3% | 3% | |||
TXD Terminal (CAN Transmit Data Input) | |||||||
VIH | HIGH level input voltage | 2 | V | ||||
VIL | LOW level input voltage | 0.8 | V | ||||
IIH | HIGH level input leakage current | TXD = VCC = 3.6 V | –2.5 | 0 | 3 | µA | |
IIL | LOW level input leakage current | TXD = 0 V, VCC = 3.6 V | –4 | 0 | 0 | µA | |
ILKG(OFF) | Unpowered leakage current | TXD = 3.6 V, VCC = 0 V | –2 | 0 | 2.5 | µA | |
I(CAP) | Input Capacitance | 2.5 | pF | ||||
RXD Terminal (CAN Receive Data Output) | |||||||
VOH | HIGH level output voltage | See Figure 20, IO = –2 mA | 0.8 x VCC | V | |||
VOL | LOW level output voltage | See Figure 20, IO = 2 mA | 0.2 | 0.4 | V | ||
ILKG(OFF) | Unpowered leakage current | RXD = 3.6 V, VCC = 0 V | –1 | 0 | 1 | µA | |
STB/S/SHDN Terminals | |||||||
VIH | HIGH level input voltage | 2 | V | ||||
VIL | LOW level input voltage | 0.8 | V | ||||
IIH | HIGH level input leakage current | STB, S, SHDN = VCC = 3.6 V | –3 | 0 | 10 | µA | |
IIL | LOW level input leakage current | STB, S, SHDN = 0 V, VCC = 3.6 V | –4 | 0 | 1 | µA | |
ILKG(OFF) | Unpowered leakage current | STB, S, SHDN = 3.6 V, VCC = 0 V | –3 | 0 | 5 | µA | |
FAULT Pin (Fault Output), TCAN337 only | |||||||
ICH | Output current high level | FAULT = VCC, See Figure 28 | –10 | µA | |||
ICL | Output current low level | FAULT = 0.4 V, See Figure 28 | 4 | 12 | mA |