TCAN330_16 Datasheet, PDF(6/40 Page) Texas Instruments – 3.3-V CAN Transceivers with CAN FD (Flexible Data Rate)

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TCAN330_16 Datasheet, PDF (6/40 Pages) Texas Instruments – 3.3-V CAN Transceivers with CAN FD (Flexible Data Rate)

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TCAN330, TCAN332, TCAN334, TCAN337

TCAN330G, TCAN332G, TCAN334G, TCAN337G

SLLSEQ7D â DECEMBER 2015 â REVISED APRIL 2016

www.ti.com

8.5 Electrical Characteristics

over operating free-air temperature range, TJ = â40Â°C to 150Â°C. All typical values are at 25Â°C and supply voltages of VCC =

3.3 V, RL = 60 â¦, (unless otherwise noted)

PARAMETER

TEST CONDITIONS

MIN

TYP

MAX UNIT

SUPPLY

ICC

UV(VCC)

Supply current Normal Mode

Supply Current: Silent Mode

Dominant

Dominant with

bus fault

Recessive

Supply Current: Standby Mode

Supply Current: Shutdown Mode

Rising under voltage detection on VCC for protected

mode

Falling under voltage detection on VCC for protected

mode

See Figure 18. TXD = 0 V, RL = 60 â¦,

CL = open, S, STB and SHDN = 0 V.

Typical Bus Load.

See Figure 18. TXD = 0 V, RL = 50 â¦,

CL = open, S, STB and SHDN = 0 V.

High Bus Load.

See Figure 18. TXD = 0 V, S, STB and

SHDN = 0 V, CANH = -12 V, RL = open,

CL = open

See Figure 18. TXD = VCC, RL = 50 â¦,

CL = open, S, STB and SHDN = 0 V

See Figure 18. TXD = VCC, RL = 50 â¦,

CL = open, S = VCC

TA < 85Â°C, STB at VCC, RXD floating,

TXD at VCC

STB at VCC, RXD floating, TXD at VCC

TA < 85Â°C, SHDN at VCC, RXD floating,

TXD at VCC

SHDN = VCC, RXD floating, TXD at VCC

1.65

180

3.5

2.5

ÂµA

2.5

2.2

2.6

2.5

VHYS(UVVCC)

DRIVER

Hysteresis voltage on UV(VCC)

200

VO(D)

VO(R)

VOD(D)

VOD(R)

V(SYM)

IOS(DOM)

Bus output voltage (dominant)

Bus output voltage (recessive)

CANH

CANL

Differential output voltage (dominant)

Differential output voltage (recessive)

Output symmetry (dominant and recessive)

(CANHREC + CANLREC â CANHDOM â CANLDOM)

Short-circuit steady-state output current, Dominant

See Figure 31 and Figure 19, TXD = 0

V, S, STB and SHDN = 0 V, RL = 60 â¦,

CL = open

See Figure 31 and Figure 19, TXD =

VCC, STB, SHDN = 0 V, S = 0 V or VCC

(1), RL = open (no load)

See Figure 31 and Figure 19, TXD = 0

V, S, STB and SHDN = 0 V, 50 â¦ â¤ RL â¤

65 â¦, CL = open

See Figure 31 and Figure 19, TXD = 0

V, S, STB and SHDN = 0 V, 45 â¦ â¤ RL <

50 â¦, CL = open

See Figure 31 and Figure 19, TXD =

VCC, S, STB and SHDN = 0 V, RL = 60

â¦, CL = open

TA < 85Â°C, See Figure 31 and Figure 19,

TXD = VCC, S, STB and SHDN = 0 V, RL

= open (no load), CL = open

See Figure 31 and Figure 19, TXD =

VCC, S, STB and SHDN = 0 V, RL =

open (no load), CL = open

See Figure 31 and Figure 19, S, STB

and SHDN = 0 V, RL = 60 â¦, CL = open

See Figure 26, V(CANH) = â12 V, CANL =

open, TXD = 0 V

See Figure 26, V(CANL) = 12 V, CANH =

open, TXD = 0 V

2.45

0.5

1.6

1.5

â120

â50

â400

â200

1.85

VCC

1.25

50 mV

100

400 mV

200

IOS(REC)

Short-circuit steady-state output current, Recessive

See Figure 26, â12 V â¤ VBUS â¤ 12 V,

VBUS = CANH = CANL, TXD = VCC

â5

5 mA

(1) The bus output voltage (recessive) will be the same if the device is in normal mode with S terminal LOW or if the device is in silent

mode with the S terminal is HIGH.

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