ETC UC5350N

UC5350
CAN Transceiver
FEATURES
PRELIMINARY
DESCRIPTION
•
Pin Compatible with PCA82C250
and DeviceNet, SDS, ISO11898
Compatible
•
High Speed, up to 1Mbps
•
Differential Transmit to the Bus and
Receive from the Bus to the CAN
Controller
•
At Least 110 Nodes Can Be
Connected
•
100V Transient Protection on the
Transmit Output
•
24V Supply Cross Wire Protection
on CANH and CANL
•
No Bus Loading When Powered
Down
•
Operates over –40°C to +125°C
•
Unitrode DeviceNet ID#107
The UC5350 Control Area Network Transceiver is designed for industrial
applications employing the CAN serial communications physical layer
per ISO 11898 standard. The device is a high speed transceiver designed for use up to 1Mbps. Especially designed for hostile environments, this device features cross wire, loss of ground, over voltage, and
over temperature protections well as a wide common mode range.
The transceiver interfaces the single ended CAN controller with the differential CAN bus found in industrial and automotive applications. It operates over the –7V to +12V common mode range of the bus and will
withstand common mode transients of –25V to +18V as well as Schaffner tests. Performance features include high differential input impedance, a symmetrical differential signal driver and very low propogation
delay that improves bus bandwidth and length by reducing reflection and
distortion.
The transceiver operates over a wide temperature range, –40°C to
+125°C and is available in 8-pin SOIC and Dual-in-Line packages.
FUNCTIONAL TABLE (VCC = 4.5V to 5.5V)
Inputs
TXD
RS
0
0
1
0
High Z
0
X
1
System Mode
High Speed
High Speed
High Speed
Standby
Output Mode
Dominant
Recessive
Recessive
Outputs
VCANH - VCANL
1.5V to 3V
–120mV to +12mV
–120mV to +12mV
High Z
RXD
0
1
1
0 at Bus = Dominant
1 at Bus = Recessive
BLOCK DIAGRAM
UDG-96202
3/98
UC5350
ABSOLUTE MAXIMUM RATINGS
Supply Voltage . . . . . . . . . . . . . . . . . . . . . . . . . . . . –0.3V to 9V
TXD, RXD, VREF, RS . . . . . . . . . . . . . . . –0.3V to VCC + 0.3V
CANL, CANH
0V < VCC < 5.5V. . . . . . . . . . . . . . . . . . . . . . . . –8V to +36V
Non-Destructive, Non-Operative . . . . . . . . . . . . –8V to +32V
Transient, Schaffner Test (Fig. 1) . . . . . . . . . –150 to +100V
Operating Temperature . . . . . . . . . . . . . . . . . –40°C to +125°C
Storage Temperature . . . . . . . . . . . . . . . . . . . –65°C to +150°C
Junction Temperature . . . . . . . . . . . . . . . . . . . –55°C to +150°C
Lead Temperature (Soldering, 10 sec.) . . . . . . . . . . . . . +300°C
Crosswire Protection Maximum VBUS . . . . . . . . . . . . . . . . 30V
Bus Differential Voltage* . . . . . . . . . . . . . . . . . . . . . . . . . . . 30V
Cross Wire Protection TA . . . . . . . . . . . . . . . . . –40°C to 125°C
Currents are positive into, negative out of the specified
terminal.
Consult Packaging Section of the Databook for thermal
limitations and considerations of packages.
*Refers to Figures 9, 10, 11, 12 and 13.
CONNECTION DIAGRAM
DIL-8, SOIC-8 (Top View)
N, D Package
See Figure 7 for Pulse Timing
UDG-96203-1
Figure 1. Schaffner Test
ELECTRICAL CHARACTERISTICS (Total Device) Unless otherwise stated, the device is disconnected from the bus
line; VCC = 4.5V to 5.5V; 60Ω in parallel with 100pF load between CANH and CANL; TA = –40°C to +125°C, TA = TJ
PARAMETER
TEST CONDITIONS
Supply Voltage
Supply Current
MIN
TYP
4.5
Dominant, TXD = 1V
MAX
UNITS
5.5
V
70
mA
Recessive, TXD = 4V
9
13
mA
Standby, RS = 4V
1
1.5
mA
5
µA
RS Input Current
–10
RS Voltage Input = Logic 1
Standby
0.75VCC
RS Voltage Input = Logic 0
High Speed
Transmitter Voltage Input = Logic 1
Transmitter Output Recessive
Transmitter Voltage Input = Logic 0
Transmitter Output Dominant
Transmitter Current Input at Logic 1
TXD = 4V
Transmitter Current Input at Logic 0
TXD = 1V
Receiver Voltage Output = Logic 1
RXD = –100µA, TXD = 4V
Receiver Voltage Output = Logic 0
RXD = 1mA, TXD = 1V
V
0.3VCC
0.7VCC
V
–30
0.3VCC
V
30
µA
30
µA
VCC –1.0
RXD = 10mA, TXD = 1V
V
V
0.75
1.0
V
1.2
1.5
V
CANH, CANL Input Resistance
No Load, TXD = 4V
30
43
54
kΩ
Differential Input Resistance
No Load, TXD = 4V
60
86
108
kΩ
CANH, CANL Input Capacitance
(Note 1)
20
pF
Differential Input Capacitance
(Note 1)
10
pF
Reference Output Voltage
VREF = ±50µA
0.55VCC
V
0.45VCC
Note 1: Guaranteed by design. Not 100% tested in production.
2
UC5350
ELECTRICAL CHARACTERISTICS (DC Parameters For Recessive State) Unless otherwise stated, the
device is disconnected from the bus line; 60Ω in parallel with 100pF load between CANH and CANL.
PARAMETER
TEST CONDITIONS
MIN
TYP
MAX UNITS
No Load, TXD = 4V (Figure 2)
2
2.5
3
V
VCANH, VCANL
Differential Output Transmitter
No Load, TXD = 4V (Figure 2)
–500
0
50
mV
(VCANH – VCANL)
Differential Input Receiver
Common Mode Range = –7V to +12V,
–1
0.40
V
TXD = 4V, CANH, CANL Externally Driven
(Figure 3)
Differential Input Resistance
No Load
60
kΩ
CANH, CANL Input Resistance
15
50
kΩ
UDG-96205
Valid voltage range of VCANH for sensing dominant bus state
as VCANL varies over bus common range mode.
TXD = LOGIC1
UDG-96204
Valid output of CANH, CANL during recessive state transmission. TXD = LOGIC 1
Figure 3. Recessive State Voltage Diagram
Figure 2. Recessive State Voltage Diagram
3
UC5350
ELECTRICAL CHARACTERISTICS (DC Parameters For Dominant State) Unless otherwise stated, the device
is disconnected from the bus line; 60Ω in parallel with 100pF load between CANH and CANL. VCC = 4.75V to 5.5V
PARAMETER
TEST CONDITIONS
MIN
TYP
MAX UNITS
TXD = 1V (Figure 4)
2.75
4.5
V
CANH Output Voltage (VCANH)
CANL Output Voltage (VCANL)
TXD = 1V (Figure 4)
0.50
1.1
2.25
V
Differential Output Transmitter (VCANH - VCANL) TXD = 1V (Figure 4)
1.5
2
3
V
Common Mode Range = –2 to +7V, TXD = 4V,
0.9
5
V
Differential Input Receiver (VDIFF(D))
CANH, CANL Externally Driven (Figure 5)
Common Mode Range = –7 to +12V, TXD = 4V, 1.0
5
V
CANH, CANL Externally Driven (Figure 5)
∆
∆
UDG-97161
UDG-97160
Valid voltage range of VCANH for sensing dominant bus
state as VCANL varies over bus common range mode.
TDX = LOGIC 0
Valid voltage range of VCANH for sensing recessive bus state
as VCANL varies over bus common mode range.
Figure 4. Dominant State Voltage Diagram
Figure 5. Dominant State Voltage Diagram
4
UC5350
Unless otherwise stated, the device is disconnected from the bus line; 60Ω in
TRANSMITTER CHARACTERISTICS parallel with 100pF load between CANH and CANL.
PARAMETER
TEST CONDITIONS
MIN
TYP
2
3
V
50
mV
45
65
ns
40
80
ns
Differential Output Transmitter
(VCANH - VCANL)
Dominant Mode
1.5
Recessive Mode
–500
Delay From TXD to Bus Active TON (TXD)
(Figure 6)
Delay From TXD to Bus Inactive TOFF (TXD) 60Ω Across CANH and CANL (Figure 6)
RECEIVER CHARACTERISTICS
Unless otherwise stated, the device is disconnected from the bus line; 60Ω in
parallel with 100pF load between CANH and CANL.
PARAMETER
Differential Input Receiver (VCANH - VCANL)
MAX UNITS
TEST CONDITIONS
MIN
Dominant Mode, TXD = 4V
TYP
MAX UNITS
0.9
V
Recessive Mode, TXD = 4V
0.4
V
Differential Input Hysteresis
TXD = 4V
Delay From Bus to RXD (TON)
Inactive to Active Bus (Figure 6)
150
55
ns
Delay From Bus to RXD (TOFF)
Active to Inactive Bus, 60Ω Across CANH and
CANL (Figure 6)
145
ns
Delay From Bus to RXD (TOFF)
TA = –25°C to 85°C Active to Inactive Bus,
60Ω Across CANH and CANL (Figure 6)
75
ns
UDG-96208
mV
UDG-96209
Figure 6. Transceiver AC Response
Figure 7. Timing Diagram for Schaffner Tests
Magnitude Specifications for VS
ISO
DP7637/1
Up to 150V
5
DIN 40839-1
(Draft)
Up to 150V
Schaffner
NSG500C/506C
40V to 200V
UC5350
Ω
Ω
Figure 8. Normal Connection
Figure 9. Crosswire No. 1
Ω
Ω
Figure 10. Crosswire No. 2
Figure 11. Crosswire No. 3
Ω
Ω
Figure 12. Crosswire No. 4
Figure 13. Crosswire No. 5
UNITRODE CORPORATION
7 CONTINENTAL BLVD. • MERRIMACK, NH 03054
TEL. (603) 424-2410 • FAX (603) 424-3460
6