It is designed to fulfill the requirements of the current ISO11898 standard (ISO11898-2 from 2003) and also the upcoming new version of ISO 11898-2 (2016) physical layer specification. Additionally it also fulfills the SAE standards J1939 and J2284-4/5. The TLE9250SJ is offered in the standard PG-DSO-8 package, but is also available in a tiny, leadless PG-TSON-8 package, called TLE9250LE. Both packages are RoHS compliant and halogen free. Additionally the PG-TSON-8 package supports the solder joint requirements for reliable automated optical inspection (AOI). As an interface between the physical bus layer and the HS CAN protocol controller, the TLE9250SJ protects the microcontroller against interferences generated inside the network. A very high ESD robustness and the perfect RF immunity allows the use in automotive application without adding additional protection devices, like suppressor diodes for example. Based on the high symmetry of the CANH and CANL output signals, the TLE9250SJ provides a very low level of electromagnetic emission (EME) within a wide frequency range. The TLE9250SJ fulfills even stringent EMC test limits without additional external circuit, like a common mode choke for example. The perfect transmitter symmetry combined with the optimized delay symmetry of the receiver enables the TLE9250SJ to support CAN FD data frames. Depending on the size of the network and the along coming parasitic effects the device supports bit rates up to 5 MBit/s. Fail-safe features like overtemperature protection, output current limitation or the TxD timeout feature protect the TLE9250SJ and the external circuitry. While the transceiver TLE9250SJ is not supplied, the bus is switched off and illustrate an ideal passive behavior with the lowest possible load to all other nodes of the High-Speed CAN network.

It is designed to fulfill the requirements of the current ISO11898 standard (ISO11898-2 from 2003) and also the upcoming new version of ISO 11898-2 (2016) physical layer specification. Additionally it also fulfills the SAE standards J1939 and J2284-4/5. The TLE9250XLE is offered in a tiny, leadless PG-TSON-8 package and is also available in standard PG-DSO-8 package, called TLE9250XSJ. Both packages are RoHS compliant and halogen free. Additionally the PG-TSON-8 package supports the solder joint requirements for reliable automated optical inspection (AOI). As an interface between the physical bus layer and the HS CAN protocol controller, the TLE9250XLE protects the microcontroller against interferences generated inside the network. A very high ESD robustness and the perfect RF immunity allows the use in automotive application without adding additional protection devices, like suppressor diodes for example. Based on the high symmetry of the CANH and CANL output signals, the TLE9250XLE provides a very low level of electromagnetic emission (EME) within a wide frequency range. The TLE9250XLE fulfills even stringent EMC test limits without additional external circuit, like a common mode choke for example. The perfect transmitter symmetry combined with the optimized delay symmetry of the receiver enables the TLE9250XLE to support CAN FD data frames. Depending on the size of the network and the along coming parasitic effects the device supports bit rates up to 5 MBit/s. Fail-safe features like overtemperature protection, output current limitation or the TxD timeout feature protect the TLE9250XLE and the external circuitry. While the transceiver TLE9250XLE is not supplied, the bus is switched off and illustrate an ideal passive behavior with the lowest possible load to all other nodes of the High-Speed CAN network.

It is designed to fulfill the requirements of the old ISO11898 standard (ISO11898-2 from 2003 and ISO11898-5 from 2007) and also to the latest version of ISO 11898-2 (2016) physical layer specification.Additionally it also fulfills the SAE standards J1939 and J2284-4/5. The TLE9251LE has a low power Stand-by mode with bus wake-up pattern (WUP) detection feature according to ISO 11898-2 (2016).In Stand-by mode the TLE9251LE is capable to detect a wake-up pattern. The TLE9251LE is offered in a tiny, leadless PG-TSON-8 package, but is also available in the standard PG-DSO-8 package, called TLE9251SJ.Both packages are RoHS compliant and halogen free. The PG-TSON-8 packaged TLE9251LE supports the solder joint requirements for reliable automated optical inspection (AOI).As an interface between the physical bus layer and the HS CAN protocol controller, the TLE9251LE protects the microcontroller against interferences generated inside the network. A very high ESD robustness andthe perfect RF immunity allows the use in automotive application without adding additional protection devices, like suppressor diodes for example.Based on the high symmetry of the CANH and CANL output signals, the TLE9251LE provides a very low level of electromagnetic emission (EME) within a wide frequency range. The TLE9251LE fulfills even stringentEMC test limits without additional external circuit, like a common mode choke for example. The perfect transmitter symmetry combined with the optimized delay symmetry of the receiver enables the TLE9251LEto support CAN FD data frames. Depending on the size of the network and the along coming parasitic effects, the device supports data rates up to 5 MBit/s. Fail-safe features like overtemperature protection,output current limitation or the TxD timeout feature are protecting the TLE9251LE and the external circuitry. While the transceiver TLE9251LE is not supplied the bus is switched off and illustrate an ideal passivebehavior with the lowest possible load to

It is designed to fulfill the requirements of the old ISO11898 standard (ISO11898-2 from 2003 and ISO11898-5 from 2007) and also to the latest version of ISO 11898-2 (2016) physical layer specification.Additionally it also fulfills the SAE standards J1939 and J2284-4/5. The TLE9251SJ has a low power Stand-by mode with bus wake-up pattern (WUP) detection feature according to ISO 11898-2 (2016).In Stand-by mode the TLE9251SJ is capable to detect a wake-up pattern. The TLE9251SJ is offered in the standard PG-DSO-8 package, but is also available in a tiny, leadless PG-TSON-8 package, called TLE9251LE.Both packages are RoHS compliant and halogen free. Additionally the PG-TSON-8 package supports the solder joint requirements for reliable automated optical inspection (AOI).As an interface between the physical bus layer and the HS CAN protocol controller, the TLE9251SJ protects the microcontroller against interferences generated inside the network. A very high ESD robustness andthe perfect RF immunity allows the use in automotive application without adding additional protection devices, like suppressor diodes for example.Based on the high symmetry of the CANH and CANL output signals, the TLE9251SJ provides a very low level of electromagnetic emission (EME) within a wide frequency range. The TLE9251SJ fulfills even stringentEMC test limits without additional external circuit, like a common mode choke for example. The perfect transmitter symmetry combined with the optimized delay symmetry of the receiver enables the TLE9251SJto support CAN FD data frames. Depending on the size of the network and the along coming parasitic effects, the device supports data rates up to 5 MBit/s. Fail-safe features like overtemperature protection,output current limitation or the TxD timeout feature are protecting the TLE9251SJ and the external circuitry. While the transceiver TLE9251SJ is not supplied the bus is switched off and illustrate an ideal passivebehavior with the lowest possible load t

The transceiver fulfills the requirements of the latest ISO standard and is fully compliant to ISO 11898-2 (2016) and SAE J2284-4/-511898-2 (2016). The wake-up capable TLE9252VLC is offering the latest Bus Wake-up Pattern (WUP) function with optimized filter time for worldwide OEM usage: 0.5μs < tFilter < 1.8μs.The non-low power modes (Normal-operating Mode and Receive-only Mode) and low power modes (Sleep Mode and Stand-by Mode) are optimized for reduced current consumption based on the required functionality. Even in Sleep Mode with a quiescent current below 25 μA over the full temperature range, the TLE9252VLC is able to detect a Wake-Up Pattern (WUP) on the HS CAN bus.The VIO voltage reference input is used to enable 3.3 V as well as 5 V microcontroller interfaces. The TLE9252VSK is offered in standard DSO-14, while the TLE9252VLC is realized in tiny leadless TSON-14 package with Lead Tip Inspection (LTI) feature providing automated optical inspection (AOI) capability. This makes the TSON-14 packaged CAN FD transceiver perfectly suited for applications where tight space restrictions mandate the use of the smallest package possible.

The transceiver fulfills the requirements of the latest ISO standard and is fully compliant to ISO 11898-2 (2016) and SAE J2284-4/-511898-2 (2016). The wake-up capable TLE9252VSK is offering the latest Bus Wake-up Pattern (WUP) function with optimized filter time for worldwide OEM usage: 0.5μs < tFilter < 1.8μs.The non-low power modes (Normal-operating Mode and Receive-only Mode) and low power modes (Sleep Mode and Stand-by Mode) are optimized for reduced current consumption based on the required functionality. Even in Sleep Mode with a quiescent current below 25 μA over the full temperature range, the TLE9252VSK is able to detect a Wake-Up Pattern (WUP) on the HS CAN bus.The VIO voltage reference input is used to enable 3.3 V as well as 5 V microcontroller interfaces. The TLE9252VSK is offered in standard DSO-14, while the TLE9252VLC is realized in tiny leadless TSON-14 package with Lead Tip Inspection (LTI) feature providing automated optical inspection (AOI) capability.

The TLE9255WLC is packaged in a tiny TSON-14 and supports the solder joint requirements for reliable automated optical inspection (AOI).Besides CAN partial networking functions, the transceiver is CAN FD compliant and can drive and receive CAN FD messages up to 2Mbit/s. It can also be used to block the payload of CAN FD messages. This CAN FD tolerant feature allows the usage of microcontrollers in CAN FD networks, which are not CAN FD capable.The SPI interface of the TLE9255WLC is used to setup the wake-up functions, INH output control, mode control and the undervoltage control of the device. This allows a very flexible usage of the TLE9255WLC in different automotive applications.

The TLE9350BSJ is a high speed CAN transceiver, used in HS CAN systems for automotive applications as well as for industrial applications. It is designed to fulfill the requirements of ISO 11898-2:2016 physical layer specification as well as SAE J1939 and SAE J2284. The TLE9350BSJ is available in a RoHS compliant, halogen free PG-DSO-8 package. As an interface between the physical bus layer and the HS CAN protocol controller, the TLE9350BSJ is designed to protect the microcontroller against interferences generated inside the network. A very high ESD robustness and the optimized RF immunity allows the use in automotive applications without additional protection devices, such as suppressor diodes or common mode chokes. Based on the high symmetry of the CANH and CANL output signals, the TLE9350BSJ provides a very low level of electromagnetic emission (EME) within a wide frequency range. The TLE9350BSJ fulfills even stringent EMC test limits without an additional external circuit, such as a common mode choke. The optimized transmitter symmetry combined with the optimized delay symmetry of the receiver enables the TLE9350BSJ to support CAN FD data frames. The device supports data transmission rates up to 5 Mbit/s, depending on the size of the network and the inherent parasitic effects. Fail-safe features, such as overtemperature protection, output current limitation or the TxD timeout feature are designed to protect the TLE9350BSJ and the external circuitry from irreparable damage.

The TLE9350BVSJ is a high speed CAN transceiver, used in HS CAN systems for automotive applications as well as for industrial applications. It is designed to fulfill the requirements of ISO 11898-2:2016 physical layer specification as well as SAE J1939 and SAE J2284. The TLE9350BVSJ is available in a RoHS compliant, halogen free PG-DSO-8 package. As an interface between the physical bus layer and the HS CAN protocol controller, the TLE9350BVSJ is designed to protect the microcontroller against interferences generated inside the network. A very high ESD robustness and the optimized RF immunity allows the use in automotive applications without additional protection devices, such as suppressor diodes or common mode chokes. Based on the high symmetry of the CANH and CANL output signals, the TLE9350BVSJ provides a very low level of electromagnetic emission (EME) within a wide frequency range. The TLE9350BVSJ fulfills even stringent EMC test limits without an additional external circuit, such as a common mode choke. The optimized transmitter symmetry combined with the optimized delay symmetry of the receiver enables the TLE9350BVSJ to support CAN FD data frames. The device supports data transmission rates up to 5 Mbit/s, depending on the size of the network and the inherent parasitic effects. Fail-safe features, such as overtemperature protection, output current limitation or the TxD timeout feature are designed to protect the TLE9350BVSJ and the external circuitry from irreparable damage.

The TLE9350BXSJ is a high speed CAN transceiver, used in HS CAN systems for automotive applications as well as for industrial applications. It is designed to fulfill the requirements of ISO 11898-2:2016 physical layer specification as well as SAE J1939 and SAE J2284. The TLE9350BXSJ is available in a RoHS compliant, halogen free PG-DSO-8 package. As an interface between the physical bus layer and the HS CAN protocol controller, the TLE9350BXSJ is designed to protect the microcontroller against interferences generated inside the network. A very high ESD robustness and the optimized RF immunity allows the use in automotive applications without additional protection devices, such as suppressor diodes or common mode chokes. Based on the high symmetry of the CANH and CANL output signals, the TLE9350BXSJ provides a very low level of electromagnetic emission (EME) within a wide frequency range. The TLE9350BXSJ fulfills even stringent EMC test limits without an additional external circuit, such as a common mode choke. The optimized transmitter symmetry combined with the optimized delay symmetry of the receiver enables the TLE9350BXSJ to support CAN FD data frames. The device supports data transmission rates up to 5 Mbit/s, depending on the size of the network and the inherent parasitic effects. Fail-safe features, such as overtemperature protection, output current limitation or the TxD timeout feature are designed to protect the TLE9350BXSJ and the external circuitry from irreparable damage.