TLE926x-3QX Product Brief

Product Brief
Mid-Range System Basis Chip Family
Compliant to CAN FD and CAN PN FD Tolerant
TLE9260/61/62/63-3QX
Key Features
Mid Range System Basis Chip (SBC) family TLE9260/61/62/63-3QX offers a high level
of integration, performance and scalability. Up to three low-drop voltage regulators
with 5V or 3.3V output voltage, one HS CAN (including Partial Networking and Flexible
Data-rate) and up to two LIN Transceivers complying to latest automotive standards
and OEM requirements. The devices include diagnostic and supervision features to
support ECU functional safety concept, high-side outputs to drive external loads,
wake-inputs and general purpose input-outputs (GPIOs) to monitor inputs or activate
loads, very low quiescent current in low power modes with full wake capability. All devices feature an exposed pad VQFN-48 (7 x 7mm) power package (supporting AOI). The
entire family is pin-to-pin and software compatible, also to other Infineon SBC families,
and is designed to withstand the severe conditions of automotive applications.
Integrated Low-Drop Voltage Regulator (5V or 3.3V up to 250mA)
„„ Integrated Low-Drop Voltage Regulator (5V up to 100mA) protected
for off-board usage
„„ Voltage Regulator (5V or 3.3V)
with external PNP transistor,
protected for off-board usage or for
load-sharing
„„ 1 High-Speed CAN Transceiver
ISO 11898-2/-5/-6: Partial Networking & CAN Flexible Data-rate
(CAN FD) compliant up to 2Mbit/s
and Partial Networking FD tolerant 1)
„„ 2 LIN Transceivers LIN2.2/J2602
„„ 4 High-Side Outputs 7Ω typ.
„„ 2 HV GPIOs, 3 HV Wake Inputs
„„ Interrupt, Reset Output
„„ Integrated Fail-Safe functions:
3 Fail-Safe Outputs, Watchdog,
Fail-Safe operating modes
„„ 16-bit SPI for configuration and
diagnostic
„„ Voltage, current and temperature
protection and monitoring
„„
Key Benefits
Low-drop voltage regulators for on- and off-board supply
Flexible number of integrated LIN transceivers
„„ Very low quiescent current
„„ Very small leadless package supporting AOI
„„ Pin and software compatibility amongst all family members
„„ Wide supply input voltage and temperature range
„„ Reduced system cost through low component count and less PCB space
„„ Excellent EMC and ESD performance meeting major car OEM requirements
„„
„„
Target Applications
Body control modules and Gateway
Climate control
„„ Seat control
„„ Door control and closures
„„ Light control modules
„„ Engine management systems
„„
„„
www.infineon.com/sbc
1) The CAN FD requirements for Transceiver are not finalized.
All statements regarding CAN FD are therefore based on
Infineon’s today’s knowledge and expectation on the
future CAN FD standard currently being worked out.
See also: CAN FD compliant TLE9260/61/62/63QX family.
Product Brief
Mid-Range System Basis Chip Family
Compliant to CAN FD and CAN PN FD Tolerant
VBAT
VBAT
VS
D1
C1
D2
VCC3
T2
R13
VCC
C2
C3
C14
IC1
GND
Q1
Q2
TLE9263-3QX Application Diagram
Q1
Q2
In this example:
VCC1 to supply µC
„„ VCC2 to supply CAN transceiver
„„ VCC3 to supply additional on- or offboard loads (e.g. sensors)
„„ High-Side Switches to drive on- or offboards LEDs, relays or to supply
monitored switches
„„ Wake Inputs to monitor the status of
switches or of external signals
(e.g. battery voltage)
„„ Fail Outputs to activate loads in failsafe mode conditions
„„ 1 HS CAN and 2 LIN transceivers
VCC3B
VS
VSHS
VSHS
VS
C11
D5
HS2
VSHS
Other loads, e.g.
sensors, opamp, ...
HS3
Logic
State
Machine
VSHS
HS4
R8
R7
R6
WK2
S2
S3
VCAN
WK3
LIN1
C6
CANH
CANH
VSHS
CAN Cell
D4
R12
LIN2
CSN VDD
CLK
MCU
SDI
SDO
TxD LIN1
RxD LIN1
TxD LIN2
RxD LIN2
TxD CAN
RxD CAN
INT
Reset
Hall1
Hall2 VSS
R1
VCC2
C5
C7
R4
LIN2
R14
Q1
Q2
D3
LIN1
TLE9263-3QX
R5
C9
C4
VSHS
WK1
VBAT
VCC2
CSN
CLK
SDI
SDO
TxD LIN1
RxD LIN1
TxD LIN2
RxD LIN2
TxD CAN
RxD CAN
INT
RO
LIN Cell
R9
S1
VCC1
VCC2
VS
HS1
R11
„„
VCC1
C10
D6
VCC3REF
R10
VCC3SH
VSHS
C13
R2 C
8
LIN Cell
VS
R3
CANL
CANL
C12
FOx
T1
GND
LH
Family Overview
TLE9260-3QX(V33)
TLE9261-3QX(V33)
LDO3
WK 1..3
LDO3
State
Machine
SPI
Wake
Input
WD
HS 1..4
Limp
Home
HS
VS
LDO1
VS
LDO2
Frame
Compare
Logic
High
Precison
Clock
TLE9262-3QX(V33)
VCC3
SPI
INT
RO
LH
WK 1..3
VS
VCC2
VS
CAN
Protokoll
Handler
GND
Published by
Infineon Technologies AG
85579 Neubiberg, Germany
© 2013 Infineon Technologies AG.
All Rights Reserved.
Visit us:
www.infineon.com
Order Number: B127-H9829-X-X-7600
Date: 09 / 2013
Wake
Input
WD
Limp
Home
LDO1
LDO2
Frame
Compare
Logic
TxD
RxD
CAN
SPI
HS
VCC1
LDO3
State
Machine
HS 1..4
High
Precison
Clock
SPI
INT
RO
LH
GND
WK 1..3
SPI
Wake
Input
WD
HS 1..4
VCC1
VS
VCC2
VS
CAN
Protokoll
Handler
Limp
Home
LDO1
LDO2
Frame
Compare
Logic
High
Precison
Clock
VCC3
LDO3
State
Machine
HS
TxD
RxD
CAN
TLE9263-3QX(V33)
VCC3
SPI
INT
RO
LH
State
Machine
WK 1..3
SPI
Wake
Input
WD
HS
Limp
Home
HS 1..4
VCC1
VS
VCC2
VS
CAN
Protokoll
Handler
LH
VCC2
LDO2
High
Precison
Clock
RO
VCC1
LDO1
Frame
Compare
Logic
SPI
INT
CAN
Protokoll
Handler
CAN
TxD
RxD
CAN
TxD
RxD
LIN
TxD
RxD
LIN
TxD
RxD
LIN
TxD
RxD
GND
Attention please!
The information given in this document shall in no event
be regarded as a guarantee of conditions or characteristics
(“Beschaffenheitsgarantie”). With respect to any examples
or hints given herein, any typical values stated herein and/
or any information regarding the application of the device,
Infineon Technologies hereby disclaims any and all warranties and liabilities of any kind, including without limitation
warranties of non-infringement of intellectual property
rights of any third party.
Information
For further information on technology, delivery terms and
conditions and prices please contact your nearest Infineon
Technologies Office (www.infineon.com).
GND
Warnings
Due to technical requirements components may contain
dangerous substances. For information on the types in
question please contact your nearest Infineon Technologies Office. Infineon Technologies Components may only
be used in life-support devices or systems with the express
written approval of Infineon Technologies, if a failure of
such components can reasonably be expected to cause
the failure of that life-support device or system, or to affect
the safety or effectiveness of that device or system. Life
support devices or systems are intended to be implanted
in the human body, or to support and/or maintain and
sustain and/or protect human life. If they fail, it is reasonable to assume that the health of the user or other persons
may be endangered.