0CANH-002-XTP ON Semiconductor, 0CANH-002-XTP Datasheet - Page 6

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0CANH-002-XTP

Manufacturer Part Number

0CANH-002-XTP

Description

Manufacturer

ON Semiconductor

Datasheet

1.0CANH-002-XTP.pdf (10 pages)

Specifications of 0CANH-002-XTP

Data Rate

1000Kbps

Number Of Transceivers

1

Standard Supported

ISO 11898-2

Operating Supply Voltage (max)

5.25V

Operating Supply Voltage (typ)

5V

Operating Supply Voltage (min)

4.75V

Package Type

SOIC N

Supply Current

65mA

Operating Temperature (max)

125C

Operating Temperature (min)

-40C

Operating Temperature Classification

Automotive

Mounting

Surface Mount

Pin Count

8

Lead Free Status / RoHS Status

Compliant

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TIMING CHARACTERISTICS (see Figures 5 and 6)

Table 6. DC AND TIMING CHARACTERISTICS

otherwise.

BUS LINES (Pins CANH and CANL)

POWER−ON−RESET (POR)

THERMAL SHUTDOWN

R

R

R

R

C

C

C

I

I

V

V

PORL

T

t

t

t

t

t

t

t

LI(CANH)

LI(CANL)

d(TxD−BUSon)

d(TxD−BUSoff)

d(BUSon−RxD)

d(BUSoff−RxD)

pd(rec−dom)

d(dom−rec)

dom(TxD)

j(sd)

CM−peak

CM−step

i(cm)(CANH)

i(cm) (CANL)

i(cm)(m)

i(dif)

i(CANH)

i(CANL)

i(dif)

V

I

o(sc) (CANL)

V

ihcm(dif) (th)

Symbol

V

i(dif) (hys)

i(dif)(th)

Short circuit output current at pin

CANL

Differential receiver threshold

voltage

Differential receiver threshold

voltage for high common−mode

Differential receiver input voltage

hysteresis

Common−mode input resistance at

pin CANH

Common−mode input resistance at

pin CANL

Matching between pin CANH and

pin CANL common−mode input res-

istance

Differential input resistance

Input capacitance at pin CANH

Input capacitance at pin CANL

Differential input capacitance

Input leakage current at pin CANH

Input leakage current at pin CANL

Common−mode peak during trans-

ition from dom → rec or rec → dom

Difference in common−mode

between dominant and recessive

state

POR level

Shutdown junction temperature

Delay TxD to bus active

Delay TxD to bus inactive

Delay bus active to RxD

Delay bus inactive to RxD

Propagation delay TxD to RxD from

recessive to dominant

Propagation delay TxD to RxD from

dominant to recessive

TxD dominant time for time out

Parameter

V

CC

http://onsemi.com

= 4.75 V to 5.25 V; T

−5 V < V

−5 V < V

See Figure 4

−35 V < V

−35 V < V

See Figure 4

−5 V < V

−5 V < V

See Figure 4

See Figures 7 and 8

See Figures 7 and 8

V

0V

V

V

V

V

V

V

CANH, CANL, V

tri−state below POR

level

V

V

V

V

V

V

V

CANH

TxD

TxD

TxD

CC

CC

s

s

s

s

s

s

TxD

CANL

= 0 V

= 0 V

= 0 V

= 0 V

= 0 V

= 0 V

= 0 V; V

= 0 V; V

= V

= V

= V

= 0 V

Conditions

6

= V

= 36V; V

CANL

CANH

CANL

CANH

CC

CC

CC

CANL

CANH

CANL

; not tested

; not tested

; not tested

CANH

CANL

< +10 V;

< +10 V;

< +10 V;

< +10 V;

< +35 V;

< +35V;

TxD

ref

= 5V

= 5V

in

junc

=

= −40°C to +150°C; R

−500

0.25

Min

150

100

250

0.5

2.2

45

50

15

15

−3

25

10

10

40

30

25

65

70

−150

3.75

Typ

170

170

160

100

450

0.7

0.7

7.5

7.5

3.5

70

70

25

25

50

85

60

55

0

LT

= 60 W unless specified

Max

1.05

120

100

250

250

500

150

180

130

105

105

135

245

245

750

0.9

4.5

37

37

+3

75

20

20

10

Unit

mA

mV

mV

mV

KW

KW

KW

mA

mA

pF

pF

pF

°C

ns

ns

ns

ns

ns

ns

ms

%

V

V

V

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