Freescale Semiconductor
Advance Information
Document Number: MC33663
Rev. 2.0, 12/2013
LIN 2.1 / SAEJ2602-2 Dual LIN
Physical Layer
The local interconnect network (LIN) is a serial communication
protocol designed to support automotive networks in conjunction with
controller area network (CAN). As the lowest level of a hierarchical
network, LIN enables cost-effective communication with sensors and
actuators when all the features of CAN are not required.
The 33663 product line integrates two physical layer LIN bus
dedicated to automotive LIN sub-bus applications. The MC33663LEF
and MC33663SEF devices offer normal baud rate (20 kbps) and the
MC33663JEF slow baud rate (10 kbps). Both devices integrate fast
baud rate (above 100 kbps) for test and programming modes. They
present excellent electromagnetic compatibility (EMC) and radiated
emission performance, electrostatic discharge (ESD) robustness and
safe behavior, in the event of LIN bus short-to-ground or LIN bus
leakage during low-power mode.
Features
33663
DUAL LIN TRANSCEIVER
EF SUFFIX (PB-FREE)
98ASB42565B
14-PIN SOICN
ORDERING INFORMATION
Temperature
Range (T
A
)
Package
• Operational from V
SUP
7.0 to 18 V DC, functional up to 27 V DC,
Device
and handles 40 V during load dump
(add an R2 suffix for
• Compatible with LIN protocol specification 2.1, and SAEJ2602-2
Tape and reel orders)
• Very high immunity against electromagnetic interference
MC33663ALEF
• Low standby current in Sleep mode
MC33663AJEF
• Over-temperature protection
• Permanent dominant state detection
MC33663ASEF
• Fast baud rate mode selection reported by RXD
• Active bus waveshaping offering excellent radiated emission
performance
• Sustains
±
15.0 kV ESD IEC6100-4-2 on LIN BUS and VSUP pins
• 5.0 and 3.3 V compatible digital inputs without any external components required
V
BAT
- 40 to 125°C
14 SOICN
33663
VSUP
WAKE1
WAKE2
INH1
INH2
1.0 k
LIN1
GND LIN2
1.0 k
LIN Interface 1
LIN Interface 2
Regulator
12 V
5.0 or
3.3 V
MCU
VDD
EN1
RXD1
TXD1
EN2
RXD2
TXD2
Figure 1. 33663 Simplified Application Diagram
* This document contains certain information on a new product.
Specifications and information herein are subject to change without notice.
© Freescale Semiconductor, Inc., 2013. All rights reserved.
DEVICE VARIATIONS
DEVICE VARIATIONS
Table 1. Device Variations
Freescale Part No.
(Add
an R2 suffix for
Tape and reel orders)
MC33663ALEF
MC33663ASEF
MC33663AJEF
Maximum Baud Rate
20 kbps
20 kbps with restricted limits for transmitter
and receiver symmetry
10 kbps
- 40 to 125 °C
14 SOICN
Temperature Range (T
A
)
Package
33663
2
Analog Integrated Circuit Device Data
Freescale Semiconductor
INTERNAL BLOCK DIAGRAM
INTERNAL BLOCK DIAGRAM
VSUP
X1
INH_ON
EN_SLEEP
EN1
200 k
INH1
Control
Unit
( LIN Module 1)
RxD1
EN_RxD
35µA
RxD_INT
Receiver
LIN_EN
Slope
Control
30 k
725 k
LIN1
TxD1
WAKE1
TxD_INT
X1
INH_ON
EN_SLEEP
EN2
200 k
Control
Unit
(
LIN Module 2
)
INH2
RxD2
EN_RxD
35µA
RxD_INT
Receiver
LIN_EN
Slope
Control
30 k
725 k
LIN2
TxD2
WAKE2
TxD_INT
GND
Figure 2. 33663 Simplified Internal Block Diagram
33663
Analog Integrated Circuit Device Data
Freescale Semiconductor
3
PIN CONNECTIONS
PIN CONNECTIONS
WAKE1
TXD1
LIN1
LIN2
INH2
RXD2
EN2
1
2
3
4
5
6
7
14
13
12
11
10
9
8
EN1
RXD1
INH1
VSUP
TXD2
GND
WAKE2
Figure 3. 33663 14-SOIC Pin Connections
Table 2. 33663 Pin Definitions
Pin
1
2
3
4
5
Pin Name
WAKE1
TXD1
LIN1
LIN2
INH2
Formal Name
Wake Input
Data Input
LIN Bus
LIN Bus
Inhibit Output
Definition
This pin is a high-voltage input used to wake-up the LIN1 from Sleep mode.
This pin is the transmitter input of the LIN1 interface which controls the state of the bus
output.
This bidirectional pin represents the LIN1 single-wire bus transmitter and receiver.
This bidirectional pin represents the LIN2 single-wire bus transmitter and receiver.
This pin can have two main functions: controlling an external switchable voltage
regulator having an inhibit input, or driving an external bus resistor connected to LIN2 in
the master node application.
This pin is the receiver output of the LIN2 interface, which reports the state of the bus
voltage to the MCU interface.
This pin controls the operation mode of the LIN2 interface.
This pin is a high-voltage input used to wake-up the LIN2 device from Sleep mode.
This pin is the device ground pin.
This pin is the transmitter input of the LIN2 interface, which controls the state of the bus
output.
This pin is device battery level power supply.
This pin can have two main functions: controlling an external switchable voltage
regulator having an inhibit input, or driving an external bus resistor connected to LIN1 in
the master node application.
This pin is the receiver output of the LIN1 interface, which reports the state of the bus
voltage to the MCU interface.
This pin controls the operation mode of the LIN1 interface.
6
7
8
9
10
11
12
RXD2
EN2
WAKE2
GND
TXD2
VSUP
INH1
Data Output
Enable Control
Wake Input
Ground
Data Input
Power Supply
Inhibit Output
13
14
RXD1
EN1
Data Output
Enable Control
33663
4
Analog Integrated Circuit Device Data
Freescale Semiconductor
ELECTRICAL CHARACTERISTICS
MAXIMUM RATINGS
ELECTRICAL CHARACTERISTICS
MAXIMUM RATINGS
Table 3. Maximum Ratings
All voltages are with respect to ground unless otherwise noted. Exceeding these ratings may cause a malfunction or
permanent damage to the device.
Ratings
ELECTRICAL RATINGS
Power Supply Voltage (VSUP)
Normal Operation (DC)
Transient input voltage with external component (according to ISO7637-2 &
ISO7637-3 & “Hardware Requirements for LIN, CAN, and Flexray Interfaces
in Automotive Applications” specification Rev. 1.1/December 2nd, 2009) (See
Table 4
and
Figure 4)
- Pulse 1 (test up to the limit for Damage - Class A
(1)
)
- Pulse 2a (test up to the limit for Damage - Class A
(1)
)
- Pulse 3a (test up to the limit for Damage - Class A
(1)
)
- Pulse 3b (test up to the limit for Damage - Class A )
- Pulse 5b (Class A)
(1)
(1)
Symbol
Value
Unit
V
V
SUP(SS)
-0.3 to 27
V
SUP(S1)
V
SUP(S2A)
V
SUP(S3A)
V
SUP(S3B)
V
SUP(S5B)
V
LOG
-100
+75
-150
+100
-0.3 to 40
- 0.3 to 5.5
V
V
Logic Voltage (RXD
1,2
, TXD
1,2
, EN
1,2
Pins)
WAKE (V
WAKE1,
V
WAKE2
)
Normal Operation with in series 2*18 k resistor (DC)
Transient input voltage with external component (according to ISO7637-2 &
ISO7637-3 & “Hardware Requirements for LIN, CAN and Flexray Interfaces
in Automotive Applications” specification Rev1.1 / December 2nd, 2009) (See
Table 4
and
Figure 5)
- Pulse 1 (test up to the limit for Damage - Class D
(2)
)
- Pulse 2a (test up to the limit for Damage - Class D
(2)
)
- Pulse 3a (test up to the limit for Damage - Class D
(2)
)
- Pulse 3b (test up to the limit for Damage - Class D
(2)
)
LIN Bus Voltage (V
LIN1
, V
LIN2
)
Normal Operation (DC)
Transient (Coupled Through 1.0 nF Capacitor) (according to ISO7637-2 &
ISO7637-3) (See
Table 4
and
Figure 6)
- Pulse 1 (test up to the limit for Damage - Class D
(2)
)
- Pulse 2a (test up to the limit for Damage - Class D
(2)
)
- Pulse 3a (test up to the limit for Damage - Class D
(2)
)
- Pulse 3b (test up to the limit for Damage - Class D
(2)
)
V
WAKE(SS)
-27 to 40
V
WAKE(S1)
V
WAKE(S2A)
V
WAKE(S3A)
V
WAKE(S3B)
-100
+75
-150
+100
V
V
LIN(SS)
-27 to 40
V
LIN(S1)
V
LIN(S2A)
V
LIN(S3A)
V
LIN(S3B)
-100
+75
-150
+100
Notes
1. Class A: All functions of a device/system perform as designed during and after exposure to disturbance.
2. Class D: At least one function of the Transceiver stops working properly during the test and will return into proper operation automatically
when the exposure to the disturbance has ended. No physical damage of the IC occurs.
33663
Analog Integrated Circuit Device Data
Freescale Semiconductor
5
51单片机
