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Número de pieza | NCV7341 | |
Descripción | High Speed Low Power CAN Transceiver | |
Fabricantes | ON Semiconductor | |
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High Speed Low Power CAN
Transceiver
The NCV7341 CAN transceiver is the interface between a
controller area network (CAN) protocol controller and the physical
bus and may be used in both 12 V and 24 V systems. The transceiver
provides differential transmit capability to the bus and differential
receive capability to the CAN controller.
Due to the wide common−mode voltage range of the receiver inputs,
the NCV7341 is able to reach outstanding levels of electromagnetic
susceptibility (EMS). Similarly, extremely low electromagnetic
emission (EME) is achieved by the excellent matching of the output
signals.
The NCV7341 is a new addition to the ON Semiconductor CAN
high−speed transceiver family and offers the following additional
features:
Features
• Ideal Passive Behavior when Supply Voltage is Removed
• Separate VIO Supply for Digital Interface Allowing Communication
to CAN Controllers and Microcontrollers with Different Supply
Levels
• Fully Compatible with the ISO 11898 Standard
• High Speed (up to 1 Mb)
• Very Low Electromagnetic Emission (EME)
• VSPLIT Voltage Source for Stabilizing the Recessive Bus Level if
Split Termination is Used (Further Improvement of EME)
• Differential Receiver with High Common−Mode Range for
Electromagnetic Immunity (EMI)
• Up to 110 Nodes can be Connected in Function of the Bus Topology
• Transmit Data (TxD) Dominant Time−out Function
• Bus Pins Protected Against Transients in Automotive Environments
• Bus Pins and Pin VSPLIT Short−Circuit Proof to Battery and Ground
• Thermally Protected
• NCV Prefix for Automotive and Other Applications Requiring Site
and Control Changes
• These are Pb−Free Devices*
Typical Applications
• Automotive
• Industrial Networks
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PIN ASSIGNMENT
TxD 1
GND 2
VCC
3
RxD 4
VIO 5
EN 6
INH 7
14 STB
13 CANH
12 CANL
11 VSPLIT
10 VBAT
9 WAKE
8 ERR
(Top View) PC20060727.1
ORDERING INFORMATION
See detailed ordering and shipping information in the package
dimensions section on page 17 of this data sheet.
*For additional information on our Pb−Free strategy and soldering details, please
download the ON Semiconductor Soldering and Mounting Techniques
Reference Manual, SOLDERRM/D.
© Semiconductor Components Industries, LLC, 2008
November, 2008 − Rev. 3
1
Publication Order Number:
NCV7341/D
1 page www.DatPaSINheDetE4US.cCoRmIPTION
NCV7341
TxD 1
GND 2
VCC
3
RxD 4
VIO 5
EN 6
INH 7
14 STB
13 CANH
12 CANL
11 VSPLIT
10 VBAT
9 WAKE
8 ERR
PC20060727.1
Figure 4. NCV7340 Pin Assignment
Table 2. PIN DESCRIPTION
Pin Name
Description
1 TxD Transmit data input; low level = dominant on the bus; internal pull−up current
2 GND Ground
3 VCC Supply voltage for the core circuitry and the transceiver
4 RxD Receive data output; dominant bus => low output
5 VIO Supply voltage for the CAN controller interface
6 EN Enable input; internal pull−down current
7 INH High voltage output for controlling external voltage regulators
8 ERR Digital output indicating errors and power−up; active low
9 WAKE Local wake−up input
10 VBAT Battery supply connection
11 VSPLIT Common−mode stabilization output
12 CANL Low−level CAN bus line (low in dominant)
13 CANH High−level CAN bus line (high in dominant)
14 STB Stand−by mode control input; internal pull−down current
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5
5 Page NCV7341
www.DatOaSpheereatt4iUn.gcoCmonditions
Operating conditions define the limits for functional operation, parametric characteristics and reliability specification of the
device. Functionality of the device is not guaranteed outside the operating conditions.
Table 6. OPERATING RANGES
Symbol
Parameter
Conditions
Min Max Unit
VBAT
VBAT_SLEEP
VCC
VIO
VCANH
VCANL
VCANL−VCANH
Supply Voltage
Supply Voltage in the Sleep Mode
Supply Voltage
Supply Voltage
DC Voltage at Pin CANH
DC Voltage at Pin CANL
DC Voltage Between Bus Pins CANH
and CANL
(Note 1)
Receiver Function Guaranteed
Receiver Function Guaranteed
Receiver Function Guaranteed
5.0 50
6.0 50
4.75 5.25
2.8 5.25
−35 +35
−35 +35
−35 +35
V
V
V
V
V
V
V
VSPLIT
DC Voltage at Pin VSPLIT
Leakage and Current Limitation are
Guaranteed
−35 +35
V
VINH
VWAKE
VTxD
VRxD
VSTB
VEN
VERR
CLOAD
DC Voltage at Pin INH
DC Voltage at Pin WAKE
DC Voltage at Pin TxD
DC Voltage at Pin RxD
DC Voltage at Pin STB
DC Voltage at Pin EN
DC Voltage at Pin ERR
Capacitive Load on Digital Outputs
(Pins RxD and ERR)
−0.3
−0.3
−0.3
−0.3
−0.3
−0.3
−0.3
VBAT + 0.3
VBAT + 0.3
VIO + 0.3
VIO + 0.3
VIO + 0.3
VIO + 0.3
VIO + 0.3
15
V
V
V
V
V
V
V
pF
TA Ambient Temperature
−40 +125 °C
TJ Maximum Junction Temperature
−40 +150 °C
1. In the sleep mode, all relevant parameters are guaranteed only for VBAT > 6 V. For VBAT between 5 V and 6 V, no power−on−reset will occur
and the functionality is also guaranteed, but some parameters might get slightly out of the specification − e.g. the wakeup detection
thresholds.
Table 7. THERMAL CHARACTERISTICS
Symbol
Parameter
Rth(vj−a)
Rth(vj−a)
Thermal Resistance from Junction−to−Ambient in SOIC−14 Package
Thermal Resistance from Junction−to−Ambient in SOIC−14 Package
Conditions
1S0P PCB
2S2P PCB
Value
128
70
Unit
K/W
K/W
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11
11 Page |
Páginas | Total 18 Páginas | |
PDF Descargar | [ Datasheet NCV7341.PDF ] |
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