TE Connectivity AMPSEAL 16 Connectors With MATE-AX Terminals

发布时间:2023-02-17 14:12
作者:Ameya360
来源:网络
阅读量:2902

  TE Connectivity’s AMPSEAL 16 Connectors With MATE-AX Coaxial Terminals are easy-to-use, flexible designs that utilize widely available automotive-standard coaxial cable. These connectors deliver analog signals up to 6GHz and digital data transmission to reliably connect antennas, cameras, sensors, and displays within heavy-duty commercial and industrial vehicles. 

      The AMPSEAL 16 connectors feature a wide range of communication protocols, including APIX 2/3, FPD Link III, GMSL 2/3, GNSS, GPS, 4G, and LTE. Typical applications include Radar/LiDAR, camera systems, telemetry units, infotainment, antennas, V2X, and ADAS.

TE Connectivity AMPSEAL 16 Connectors With MATE-AX Terminals

  FEATURES

  Utilizes standard 50 ohm RTK031 and RG174 coaxial cable

  Simple latch and lock design for ease of connector mating

  4 color-coded keying options available

  Supports a wide range of communication protocols with 15-meter link and 2 in-line connections

  Integrated family seal helps eliminate the use of expensive heat shrink tubing and the associated time-consuming application

  Housing design features locking Connector Position Assurance (CPA) latch and a Primary Latch Reinforcement (PLR) to help confirm contact positioning and avoid misalignment

  Vibration and mechanical shock resistance

  IP67/IP69K (with backshell) dust and water protection

  APPLICATIONS

  In-cabin Applications Motor Control Unit (MCU):

  ADAS controller

  Camera

  Displays

  Telemetry units

  V2X

  Antennas

  RADAR/LiDAR

  Infotainment

  Chassis applications:

  Camera

  Telemetry units

  Antennas

  RADAR/LiDAR

  GPS

  Displays

  Sealed controller


(备注:文章来源于网络,信息仅供参考,不代表本网站观点,如有侵权请联系删除!)

上一篇:Ameya360:Space-saving Chip Ferrite Beads for Automotive Noise Suppression

下一篇:Ameya360:TAIYO YUDEN launches scent sensor

在线留言询价

相关阅读
Temperature Sensor : Types, Applications, Working Principle and Much More
Trade news

Temperature Sensor : Types, Applications, Working Principle and Much More

  A temperature sensor is a vital component in many systems where monitoring or controlling of temperature is required.  It allows one to measure the temperature of an object or environment and provide thermal data which is further used by various devices and applications.  Temperature sensors play an important role across many industries from automotive and medical to consumer appliances.  What is a temperature sensor?A temperature sensor is a device that helps in measuring the temperature of its environment, object or substance and converts the measurement into an electronic signal.  This electronic signal is further processed by auxiliary instrumentation such as temperature indicators, temperature controllers and temperature recorders to display or use the temperature data.  There are various types of temperature sensors available based on different sensing technologies like thermistor, thermocouple, Resistance Temperature Detector (RTD) etc.  What are different types of temperature sensors?Some of the common types of temperature sensors are:  Thermocouple  A thermocouple is a temperature sensor made by joining two different conductors at their ends to form a thermocouple junction. The voltage produced is dependent on the temperature difference between the thermocouple junction and a reference junction. Thermocouples are inexpensive, rugged and can measure a wide range of temperatures.  Resistance Temperature Detector (RTD)  An RTD is made up of a pure metal like platinum, copper or nickel which exhibits change in electrical resistance when exposed to change in temperature. The resistance increases linearly as temperature rises which makes it easy to convert to temperature using a simple formula. RTDs provide good accuracy over a wide temperature range.  Thermistor  A thermistor is a type of resistor whose resistance varies significantly with temperature changes. It exhibits a non-linear but known resistance-to-temperature relationship. Negative temperature coefficient (NTC) thermistors decrease in resistance with rising temperature while positive temperature coefficient (PTC) thermistors increase in resistance. They provide high accuracy and fast response time.  Integrated Circuit Sensor  An integrated circuit temperature sensor consists of a temperature sensitive circuit integrated onto a silicon chip that outputs voltage proportional to sensed temperature. They are small in size, inexpensive and mass producible. But accuracy is less as compared to other sensor types.  Infrared Sensor  Infrared sensors detect infrared energy radiated from an object or surface and produce an electronic signal proportional to the temperature. They are contactless and suitable to measure temperature without disturbing the environment but have less accuracy.  What are the advantages and disadvantages of temperature sensors?Advantages  • Provide accurate and repeatable temperature measurements.  • Respond quickly to temperature variations.  • Can measure a wide range of temperatures from below zero to thousands of degrees Celsius depending on type.  • Rugged, withstand vibrations and withstand hostile environmental conditions like humidity and pressure.  • Low cost options available for general purpose temperature measurements.  • Integrated circuit temperature sensors are small, mass producible and inexpensive.  Disadvantages  • Contact sensors disturb the medium whose temperature is being measured.  • Thermocouples produce small voltage signals requiring amplification.  • Response time of temperature sensors depends on thermal mass and insulation which limits fast temperature tracking.  • Temperature sensors have limited lifespan and require calibration over time.  • Special sensors are needed for measuring ultra-low or ultra-high temperatures.  How important is a temperature sensor?  A temperature sensor plays a vital role in maintaining quality and safety standards across many industries.  Some key applications where temperature sensors are mission critical include:  • Medical equipment and patient monitoring – Ensures safe temperatures for drug infusion, surgical/therapy devices, incubators etc.  • Automotive – Monitors engine temperature, fuel systems, brake fluid, transmission oil, exhaust gas recirculation.  • Industrial manufacturing – Controls processes in plastics molding, food processing, chemical reactions requiring specific temperatures.  • HVAC equipment – Essential component in thermostats, air conditioners, refrigerators to regulate temperatures.  • Fire/overheat detection – Prevents accidents by triggering alarms when abnormal high temperatures detected.  • Consumer appliances – Maintains safe cooking temperatures in ovens/stoves, cool temperatures in refrigerators.  Where are temperature sensors used?Industrial applications  Oil and gas plants to monitor pipeline temperatures, boiler temperatures.  Pulp and paper industry for dryer skin temperatures, consistency measurements.  Power plants to monitor transformer temperatures, boiler steam temperatures.  Iron and steel industry for molten metal temperatures, annealing furnace controls.  Automotive  Engine coolant temperature sensor in radiator.  Intake air temperature sensor.  Exhaust gas temperature sensor before catalytic converter.  Transmission fluid temperature sensor.  Rear differential and transfer case temperature sensors.  Medical  Patient thermoregulation- temperature probes in incubators, warming blankets.  Medical sterilizers- monitors autoclave temperatures.  Hyperthermia therapy- controls localized temperature increases.  HVAC  Thermostat temperature sensor  Duct-mounted temperature sensors  Outdoor temperature sensors  Household appliances  Refrigerator/freezer temperature sensors  Oven temperature sensors  Water heater thermostats  What is the difference between thermal sensor and temperature sensor?The main difference between a thermal sensor and a temperature sensor are:  Thermal sensors detect heat without direct contact while temperature sensors measure temperature through properties like resistance that change with temperature.  Thermal sensors provide relative heat indication without units while temperature sensors provide measured temperature output in units like Celsius or Fahrenheit.  How do temperature sensors work?Temperature sensors function based on different working principles depending on the sensing technology used:  Thermistors  Thermistors are made from semiconductor materials that change resistance predictably with temperature changes. As temperature rises, the mobility of charge carriers in the semiconductor increases resulting in lower electrical resistance that can be measured.  Thermocouples  When two different conductors are joined together, a voltage is produced dependent on their Seebeck coefficient and the temperature difference between the junction and reference junction. The output voltage is linearly proportional to temperature and is measured.  RTDs  Resistance Temperature Detectors use metals like platinum that change resistance reliably with temperature. Resistance increases linearly as temperature rises following PRT (Platinum Resistance Thermometers) or ITS-90 standard curves.  Integrated circuits  Complementary metal–oxide–semiconductors (CMOS) and bipolar transistors on an IC change current or voltage levels proportionally to temperature which is output analog or digital signals.  Infrared sensors  Infrared sensors contain a detector which absorbs infrared radiation from the target. The absorbed IR energy causes the detector temperature to rise above ambient. This temperature change alters the electrical properties to provide an output signal related to target temperature.  How to design a temperature sensor?  The steps involved in designing a temperature sensor are:  1. Select sensing element material based on required temperature range, accuracy, response time etc. like RTD, thermistor etc.  2. Design sensor probe matching application requirements like immersion, surface, air temperature sensing.  3. Choose appropriate housing material that withstands application environment. Consider thermal insulation, heat transfer etc.  4. Design signal conditioning circuitry to convert sensor output to standardized signals compatible with instruments like amplifiers, filters, transmitters etc.  5. Develop calibration curves and apply compensation algorithms in microcontroller if required for high accuracy.  6. Implement temperature scaling and linearization if needed in firmware or hardware.  7. Add optional features like remote sensor with transmission line, displays, alarms, microprocessor integration.  8. Test prototype under standard reference temperatures for calibration, accuracy, repeatability.  9. Enhance product through validation testing under field conditions, certifications.  10. Prepare design documentation for manufacturing.  What is the range of a temperature sensor?Temperature sensors can measure a wide range of temperatures based on the sensing technology and construction. Some common measurement ranges are:  • Thermocouples: -250°C to 1350°C  • RTDs: -200°C to 650°C  • Thermistors: -55°C to 150°C  • Integrated circuits: -55°C to 150°C  • Infrared sensors: -50°C to 500°C  Special types of sensors further extend the limits to measure very low cryogenic temperatures below -200°C for applications like liquified natural gas plants, high energy physics labs.  Similarly, special metallurgical thermocouples and optical pyrometer sensors go up to 3000°C for processes like steel making, glass welding.  ConclusionAn accurate and reliable temperature sensor is fundamental for process and quality control across major industries due to its role in monitoring, regulating and safety applications.  Understanding sensor types, principles, design and selection based on application demands is key.  Advancing technologies are continuously improving sensing capabilities to wider ranges, higher precisions and intelligent outputs.  As temperature measurement takes a more vital role, evolution of sensors will keep pace with the emerging trends.
2024-07-10 13:19 阅读量:404
Texas Instruments UCC14141EVM-068 Evaluation Module
Trade news

Texas Instruments UCC14141EVM-068 Evaluation Module

  Texas Instruments UCC14141EVM-068 Evaluation Module demonstrates the UCC14141-Q1 DC/DC converter module, delivering 1.5W of 5kVRMS, isolated power in a low profile, 3.5mm, wide-body SOIC integrated package. The TI UCC14141EVM-068 EVM can operate from 8 VIN to 18 VIN and is configured for dual outputs of VDD = 18V and VEE= -4V. The UCC14141EVM-068 exhibits typical bias supply voltages required by IGBT and SiC gate driver ICs in high voltage, industrial and automotive inverters, battery management systems, charging stations, and various isolated equipment applications.    FEATURES  UCC14141-Q1 1.5W DC/DC converter module with dual VDD, VEE outputs for SiC and IGBT gate driver IC bias  Transformer, power stage, and control are fully integrated into a low-profile 12.8mm x 7.55mm x 3.55mm wide, 36-pin SOIC package  AEC-Q100, full rated power up to 105°C, 3.5pF isolation capacitance, SSM frequency modulation and low electromagnetic emissions  5kVRMS isolation, input OVP, output OCP, power limit, power good, enable and integrated soft start  The EVM demonstrates features most important to SiC and IGBT gate drive bias application in an easy-to-use test platform  PCB LAYOUT
2023-08-18 11:52 阅读量:3606
AMEYA360:TE Connectivity / Entrelec Metal EMC Cable Glands
Trade news

AMEYA360:TE Connectivity / Entrelec Metal EMC Cable Glands

  TE Connectivity's (TE) / Entrelec Metal EMC Cable Glands offer excellent cable strain relief and high ingress protection against dirt, water, and dust. These cable glands are reliable in harsh environments due to their high ingress protection ratings and feature EMC protection and vibration-proof construction, achieved by the fitted contact springs that enlarge contacts with the cable shield for long-lasting contact quality and connection. EMC cable glands have many mounting options for design flexibility and offer various product functions to fit many applications. TE / Entrelec Metal EMC Cable Glands include plastic and metal variations ideal for standard and specialized applications.  FEATURES  High ingress protection ratings  EMC protection and vibration proof  Hygienic construction for low contamination areas  3 types of thread specs: metric, PG, and NPT  Various product functions to fit many applications  Various material and color options  APPLICATIONS  Standard Plastic and Brass Glands  Electrical cabinets  Plastic and metal boxes  LV/MV/HV panels  Machine tools  Motors  HVAC  Compressors  Brass EMC Glands for Vibration Environments  Elevators  HVAC  Compressors  Motors  Railways  Hygienic Glands for Environments with Potential Contamination  Food and pharmaceuticals  Manufacturing and packaging  Clean room technology  Biotechnology  Chemical industries
2023-06-15 14:04 阅读量:1946
AMEYA丨TE Connectivity MULTI-BEAM Lite Power Connectors
Trade news

AMEYA丨TE Connectivity MULTI-BEAM Lite Power Connectors

  TE Connectivity’s (TE) MULTI-BEAM Lite Power Connectors provide excellent power density with multiple current options. TE's MULTI-BEAM Lite Power Connectors feature a small size and low-profile configuration, suitable for 1U power supplies or distribution systems. This compact size provides considerable design flexibility while meeting next-generation environmental requirements. With a wide variety of solutions available, TE offers supply chain stability and resilience while addressing the end user’s requirements for power delivery and cooling.  FEATURES  Features a low-profile PSU connector with a 9.6mm height above the PC board that allows better airflow  Number and placement of power and signal contacts enable greater design flexibility in a wide variety of applications  Environmentally friendly manufacturing process with sustainability in mind  Large profile of solutions and customizability support supply chain resilience and stability  Lower profile and smaller size allow for better airflow to the rest of the board components while saving valuable PCB real estate  Right-angle header, right-angle receptacle, and vertical receptacle types provide co-planar and backplane applications, increasing design flexibility  Up to 75A per contact for high power and up to 45A per contact for low power  Scalable and flexible design to enable tooling cost-effectiveness  APPLICATIONS  Server power  Rack-mount power  Storage solutions  Networking switches
2023-03-28 14:54 阅读量:2551
热门分类
盒子,外壳,机架 电缆,电线 电路保护 连接器,互连器件 开发套件 机电产品 嵌入式解决方案 风扇,热管理 光电元件 其它 无源元件 电源 半导体 传感器,变送器 测试与测量
  • 一周热料
  • 紧缺物料秒杀
型号 品牌 询价
CDZVT2R20B ROHM Semiconductor
BD71847AMWV-E2 ROHM Semiconductor
TL431ACLPR Texas Instruments
RB751G-40T2R ROHM Semiconductor
MC33074DR2G onsemi
型号 品牌 抢购
STM32F429IGT6 STMicroelectronics
TPS63050YFFR Texas Instruments
BU33JA2MNVX-CTL ROHM Semiconductor
BP3621 ROHM Semiconductor
IPZ40N04S5L4R8ATMA1 Infineon Technologies
ESR03EZPJ151 ROHM Semiconductor
热门标签
ROHM
Aavid
Averlogic
开发板
SUSUMU
NXP
PCB
传感器
半导体
原厂授权品牌
更多授权品牌>>
资讯排行榜
  • 周排行榜
  • 月排行榜

相关百科
关于我们
AMEYA360微信服务号 AMEYA360微信服务号
AMEYA360商城(www.ameya360.com)上线于2011年,现 有超过3500家优质供应商,收录600万种产品型号数据,100 多万种元器件库存可供选购,产品覆盖MCU+存储器+电源芯 片+IGBT+MOS管+运放+射频蓝牙+传感器+电阻电容电感+ 连接器等多个领域,平台主营业务涵盖电子元器件现货销售、 BOM配单及提供产品配套资料等,为广大客户提供一站式购 销服务。