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TH8082 Datasheet, PDF (7/14 Pages) List of Unclassifed Manufacturers – Single LIN Bus Transceiver
TH8082
Single LIN Transceiver
Static Characteristics (continued)
Parameter
PIN RXD
Low level output voltage
High level output voltage
PIN INH
High level output voltage
Leakage current
Thermal protection
Thermal shutdown
Hysteresis
Symbol Conditions
Vol_rxd
Voh_rxd
IRxD = 1.25mA
IRxD = -250µA
Voh_INH
VINH_lk
IRxD = -180µA
EN = L, VINH = 0V
Tsd
Thys
Min
Typ
Max Unit
VCC -0.9
0.9
V
V
VS -0.8V VS -0.5V
V
-5
5
µA
150
180
°C
5
25
°C
Dynamic Characteristics
All dynamic values of the table below refer to the test-schematic schown in Figure - Timing Diagram
6V ≤ VS ≤ 18V, -40°C ≤ TA ≤ 125°C, unless otherwise specified
Parameter
Slew rate falling edge
Slew rate rising edge
Propagation delay transmitter
( TxD->BUS)
Propagation delay transmitter
( TxD->BUS)
Propagation delay transmitter
symmetry
Propagation delay receiver
( BUS->RxD)
Propagation delay receiver
( BUS->RxD)
Propagation delay receiver
symmetry
Receiver debounce time
Wake-up filter time
EN debauncing time
Symbol
tSRF
tSRR
Conditions
80% < VBUS < 20% ,
minimum & maximum bus
load
20% < VBUS < 80% ,
minimum bus load [1]
Min Typ
-3
-2
1
2
ttrans_pdf
TxD high to low transition[2]
ttrans_pdr
TxD low to high transition[2]
ttrans_sym
trec_pdf
trec_pdr
Calculate ttrans_pdf - ttrans_pdr
-2
BUS recessive to dominant [2]
BUS dominant to recessive[2]
trec_sym
Calculate ttrans_pdf - ttrans_pdr
-2
trec_deb
BUS rising & falling edge[3]
1.2
twu
BUS rising & falling edge[4]
25
ten_deb
Normal to sleep mode]
10
20
______________________________
[1] Minimum slew rate of the rising edge is determined by the network time constant
[2] See timing diagram figure 3
[3] See timing diagram figure 4
[4] See timing diagram figure 5
Max
-1
3
4
4
2
6
6
2
3.1
90
40
Unit
V/µs
V/µs
µs
µs
µs
µs
µs
µs
µs
µs
µs
Data Sheet Rev 1.0 June 2001
Page 7
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