order_bg

products

Hot Sale for Devices That Integrated Circuits - TCAN1042HGVDRQ1 SOP8 Electronic Components Distribution New Original Tested Integrated Circuit Chip IC TCAN1042HGVDRQ1 – Yingnuode

short description:


Product Detail

Product Tags

Related Video

Feedback (2)

Our personnel are always in the spirit of "continuous improvement and excellence", and together with the top-quality good quality solutions, favorable selling price and superior after-sales providers, we try to acquire each customer's rely on for LP87702DRHBRQ1 , Lm Timer Ic , Circuit Chip , Please don't hesitate to contact us if you are interested in our products. We firmly believe our products will make you satisfied.
Hot Sale for Devices That Integrated Circuits - TCAN1042HGVDRQ1 SOP8 Electronic Components Distribution New Original Tested Integrated Circuit Chip IC TCAN1042HGVDRQ1 – Yingnuode Detail:

Product Attributes

TYPE DESCRIPTION
Category Integrated Circuits (ICs)

Interface

Drivers, Receivers, Transceivers

Mfr Texas Instruments
Series Automotive, AEC-Q100
Package Tape & Reel (TR)

Cut Tape (CT)

Digi-Reel®

SPQ 2500 T&R
Product Status Active
Type Transceiver
Protocol CANbus
Number of Drivers/Receivers 1/1
Duplex -
Receiver Hysteresis 120 mV
Data Rate 5Mbps
Voltage – Supply 4.5V ~ 5.5V
Operating Temperature -55°C ~ 125°C
Mounting Type Surface Mount
Package / Case 8-SOIC (0.154″, 3.90mm Width)
Supplier Device Package 8-SOIC
Base Product Number TCAN1042

1.

PHY is a rising star in in-vehicle applications (such as T-BOX) for high-speed signal transmission, while CAN is still an indispensable member for lower-speed signal transmission. The T-BOX of the future will most likely need to display vehicle ID, fuel consumption, mileage, trajectory, vehicle condition (door and window lights, oil, water and electricity, idle speed, etc.), speed, location, vehicle attributes, vehicle configuration, etc. on the car network and mobile car network, and these relatively low-speed data transmission is relying on the main character of this article, CAN.

The CAN bus was introduced by Bosch in Germany in the 1980s and has since become an integral and important part of the car. To meet the different requirements of in-vehicle systems, the CAN bus is divided into high-speed CAN and low-speed CAN. high-speed CAN is mainly used for the control of power systems that require high real-time performance, such as engines, automatic transmissions, and instrument clusters. Low-speed CAN is mainly used for the control of comfort systems and body systems that require less real-time performance, such as air conditioning control, seat adjustment, window lifting, and so on. In this article, we will focus on high-speed CAN.

Although CAN is a very mature technology, it still faces challenges in automotive applications. In this paper, we will look at some of the challenges CAN is facing and introduce the relevant technologies to address them. Finally, the advantages of TI’s CAN applications and its rather “hardcore” products will be described in detail.

2.

Challenge one: EMI performance optimization

As the density of electronics in vehicles increases each year, the electromagnetic compatibility (EMC) of in-vehicle networks is being demanded even more, because when all components are integrated into the same system, it is essential to ensure that the subsystems work as expected, even in the face of noisy environments. One of the major challenges faced by CAN is the exceedance of conducted emissions caused by common mode noise.

Ideally, CAN uses differential link transmission to prevent external noise coupling. In practice, however, CAN transceivers are not ideal and even a very slight asymmetry between CANH and CANL can produce a corresponding differential signal, which causes the common mode component of CAN (i.e. the average of CANH and CANL) to cease to be a constant DC component and become data-dependent noise. There are two types of imbalance that result in this noise: low-frequency noise caused by a mismatch between the steady state common mode level in the dominant and recessive states, which has a wide frequency range of noise patterns and appears as a series of uniformly spaced discrete spectral lines; and high-frequency noise caused by the time difference between the transition between dominant and recessive CANH and CANL, which consists of short pulses and disturbances generated by data edge jumps. Figure 1 below shows an example of typical CAN transceiver output common mode noise. Black (channel 1) is CANH, purple (channel 2) is CANL and green indicates the sum of CANH and CANL, the value of which is equal to twice the common mode voltage at a given point in time.

rtdf


Product detail pictures:

Hot Sale for Devices That Integrated Circuits - TCAN1042HGVDRQ1 SOP8 Electronic Components Distribution New Original Tested Integrated Circuit Chip IC TCAN1042HGVDRQ1 – Yingnuode detail pictures

Hot Sale for Devices That Integrated Circuits - TCAN1042HGVDRQ1 SOP8 Electronic Components Distribution New Original Tested Integrated Circuit Chip IC TCAN1042HGVDRQ1 – Yingnuode detail pictures


Related Product Guide:

Our company promises all users of the first-class products and the most satisfying post-sale service. We warmly welcome our regular and new customers to join us for Hot Sale for Devices That Integrated Circuits - TCAN1042HGVDRQ1 SOP8 Electronic Components Distribution New Original Tested Integrated Circuit Chip IC TCAN1042HGVDRQ1 – Yingnuode , The product will supply to all over the world, such as: Bahrain, Peru, Ottawa, We can give our clients absolute advantages in product quality and cost control, and we have full range of molds from up to one hundred of factories. As product updating fast, we succeed in developing many high quality products for our clients and get high reputation.
  • Good quality, reasonable prices, rich variety and perfect after-sales service, it's nice!
    5 Stars By Odelia from Myanmar - 2018.06.28 19:27
    The customer service staff's attitude is very sincere and the reply is timely and very detailed, this is very helpful for our deal,thank you.
    5 Stars By Louis from Swansea - 2018.07.26 16:51
    Write your message here and send it to us