Texas Instruments TXU0204QPWRQ1
- Part Number:
- TXU0204QPWRQ1
- Manufacturer:
- Texas Instruments
- Ventron No:
- 6410461-TXU0204QPWRQ1
- Description:
- Automotive four-channel fixed multidirectional level shifter
- Datasheet:
- txu0204-q1
- ApplicationsGPIO
- Bits (#)4
- Configuration2 Ch A to B 2 Ch B to A
- High input voltage (min) (V)0.44
- High input voltage (max) (V)5.5
- Vout (min) (V)1505
- Vout (max) (V)5.5
- Data rate (max) (MBits)200
- IOH (max) (mA)-12
- IOL (max) (mA)-12
- Supply current (max) (μA)5.5
- Features7.5
- Input typeSchmitt-Trigger
- Output type3-State
- RatingAutomotive
- Operating temperature range (°C)-40 to 125
TXU0204-Q1 is a 4-bit, dual-supply noninverting fixed direction voltage level translation device. Ax pins are referenced to VCCA logic level, OE pin can be referenced to either VCCA or VCCB logic levels, and Bx pins are referenced to VCCB logic levels. The A port is able to accept input voltages ranging from 1.1 V to 5.5 V, while the B port can also accept input voltages from 1.1 V to 5.5 V. Fixed direction data transmission can occur from A to B or B to A when OE is set to high in reference to either supply. When OE is set to low, all output pins are in the high-impedance state. See Device Functional Modes for a summary of the operation of the control logic.
-
ImagePart NumberManufacturerApplicationsBits (#)ConfigurationHigh input voltage (min) (V)High input voltage (max) (V)Vout (min) (V)Vout (max) (V)Data rate (max) (MBits)IOH (max) (mA)IOL (max) (mA)Supply current (max) (μA)FeaturesInput typeOutput typeRatingOperating temperature range (°C)View Compare
-
TXU0204QPWRQ1GPIO42 Ch A to B 2 Ch B to A0.445.515055.5200-12-125.57.5Schmitt-Trigger3-StateAutomotive-40 to 125-
-
GPIO43 Ch A to B 1 Ch B to A0.445.52216865.5200-12-125.51.7Schmitt-Trigger3-StateCatalog-40 to 125
-
GPIO42 Ch A to B 2 Ch B to A0.445.52304215.5200-12-125.51.7Schmitt-Trigger3-StateCatalog-40 to 125
-
GPIO42 Ch A to B 2 Ch B to A0.445.52304215.5200-12-125.51.7Schmitt-Trigger3-StateCatalog-40 to 125
Latest News
-
27 December 2023
Everything You Need to Know About STM8S003F3P6TR Microcontroller
Ⅰ. Overview of STM8S003F3P6TRⅡ. Structure of STM8S003F3P6TR microcontrollerⅢ. Package of STM8S003F3P6TR microcontrollerⅣ. STM8S003F3P6TR priceⅤ. Advantages and application scenarios of STM8S003F3P6TRⅥ. STM8S003F3P6TR specificationsⅦ. What are the characteristics of STM8S003F3P6TR... -
27 December 2023
Applications and Usage of IR2011STRPBF Isolated Gate Driver
Ⅰ. What is a gate driver?Ⅱ. Introduction to IR2011STRPBFⅢ. Dimensions and package of IR2011STRPBFⅣ. Technical parameters of IR2011STRPBFⅤ. Who produces the IR2011STRPBF?Ⅵ. Absolute maximum ratings of IR2011STRPBFⅦ. Where... -
28 December 2023
TMS320F28335PGFA Microcontroller: Where and How to Use It?
Ⅰ. TMS320F28335PGFA descriptionⅡ. Characteristics of TMS320F28335PGFAⅢ. Specifications and performance indicators of TMS320F28335PGFAⅣ. Programming method of TMS320F28335PGFAⅤ. TMS320F28335PGFA priceⅥ. How to use TMS320F28335PGFA?Ⅶ. Where is TMS320F28335PGFA used?Ⅷ. What are... -
28 December 2023
74HC573 Transparent Latch Functions, Working Principle, Usage and Application
Ⅰ. What is a latch?Ⅱ. Overview of 74HC573Ⅲ. Pin configuration of 74HC573 latchⅣ. Functions of 74HC573 latchⅤ. How does 74HC573 latch work?Ⅵ. How to use 74HC573 latch?Ⅶ. Practical...
Help you to save your cost and time.
Reliable package for your goods.
Fast Reliable Delivery to save time.
Quality premium after-sale service.