The company's subsidiary Dedicated to launch a complete solution for industrial electronics based on Toshiba and Austrian Microelectronics (AMS) products. Including motor driver, magnetic sensing position sensor, CCS811/CCS801 gas sensor, AS6200 digital temperature sensor, ENS210 sensor / 'target='_blank'> temperature sensor, image sensor, Robot block diagram and application products. Toshiba provides a total solution for industrial electronics, manufactured using hybrid DMOS (BiCD) process technology, with higher voltage and current capability than existing Bi-CMOS motor drivers and a combination of high-resolution PPG and high-precision analog control interfaces. Components such as controllers. At present, Toshiba is the leader in the industry by providing the best solution for motor control microprocessors and motor drives. Austriamicrosystems is the world's leading designer and manufacturer of high-performance analog ICs, providing innovative analog solutions for challenging applications such as sensor and sensor interfaces, power management and wireless applications. Austrian Microelectronics products are targeted at applications where high precision, wide dynamic range, high sensitivity, noise immunity or ultra low power consumption are required. 1. Adopting mixed DMOS (BiCD) process, with strong functionality and low power consumption; 2. A wide variety of packages; 3. Abnormal detection function enhancement (TSD, ISD and POR); 4. Power-on reset (POR): prevents operation failures during device switching; 5. Thermal Shutdown (TSD): Detects the device for abnormal overheating events through a thermal detection circuit; 6. Overcurrent Shutdown (ISD): When a short circuit occurs between any device termination and power or ground, the overcurrent detection circuit stops the device operation. Figure 1 - Product sequence diagram of the Toshiba motor driver of the Grand Alliance To appeal to manufacturers and potentiometer users, this new product replaces traditional potentiometers with more reliable non-contact features. The AS5600 features a ratiometric output and a reflective potentiometer output (a variable resistor). This means that if the potentiometer user wants to replace the potentiometer with the AS5600, there is no need to change the application code running on their microcontroller. The AS5600 not only provides up to 12-bit resolution at 0-360° rotation, but also measures angular displacement in applications such as knobs and turntables that use potentiometers. The magnetic rotary position sensor AS5600 further expands Austriamicrosystems' extensive lineup of magnetic position sensors. Austrian Microelectronics' magnetic position sensor series includes all patented differential detection technology that is highly immune to stray magnetic fields. The rotational motion of the magnetic position sensor operates by measuring the magnetic field changes of the paired magnets and is therefore more reliable than the contact method of the potentiometer and is not affected by factors such as dust, dirt, humidity, water and vibration. Not only does the AS5600 have more reliable and better performance than a potentiometer, but it also introduces a new power-saving mode that makes it as power-efficient as a potentiometer. It operates in four power-saving modes and automatically switches to low-power mode after 1 minute of inactivity. In this mode, the AS5600 will scan 10 times in 1 second. When detecting rotation, the AS5600 immediately switches to the power mode selected by the user while operating at a higher frequency. In low power mode, the AS5600 consumes at most 1.5mA. The measured values ​​captured by the AS5600 are highly accurate because of the Hall elements on the chip. The Hall element is a high-performance functional block that Austrian Microelectronics builds on all magnetic position sensors. The nonlinearity is rotated at full 360° while the digital output is only ±0.28% over the temperature range of the entire device. The maximum noise is 0.015°rms. The new AS5047P features higher speeds and more accurate incremental outputs for motor and motion control. Like other products in the Austrian Microelectronics 47 series, the new AS5047P features DAECTM (Dynamic Angle Error Compensation) technology for accurate angle measurement even at very high speeds. The high speed performance of the Series 47 magnetic sensor and the ABI incremental output make it the perfect replacement for optical encoders. Designed based on the 47 series, the total system cost is usually much lower than the equivalent optical encoder or decoder. Austrian Microelectronics also added a single run step for the component's incremental ABI output. The ABI output of the Series 47 is equivalent to the output of a standard optical encoder, so motor control system designers can use an Austrian microelectronic magnetic position sensor instead of an optical encoder without changing the control software or interface. AS5047P ABI output decimal mode, the highest resolution per revolution can be up to 4000 steps / 1000 pulses, the maximum resolution of ABI output in binary mode can reach 4096 steps / 1024 pulses per revolution. This means that the magnetic position sensor will replace the optical encoder in more applications. Like other magnetic position sensors from Austrian Microelectronics, the AS5047P is highly immune to stray magnetic fields and is not affected by dirt, dust, grease, moisture and other contaminants, which are usually attenuated. Optical encoder performance. The AS5047P has a DAEC technology that compensates for the dynamic angular error caused by the propagation delay of the original measurement data of the magnetic field strength of the sensor. DAEC technology eliminates the need for system designers to use separate error compensation circuitry on external DSPs or microcontrollers. The technology also achieves the AS5047P with extremely high accuracy, with a maximum error of only 0.34° at 28,000 rpm (without nonlinear integration). Features of CCS801 and CCS811 include: integrated MCU management sensor drive mode and simultaneous measurement of VOC onboard processing air quality indicators, no need to occupy external MCU resources to provide standard digital interface for simple development, accelerate time-to-market optimization The power consumption mode extends battery life and is especially suitable for portable application air quality alarms without the need for continuous software monitoring, reducing the power consumption of the main chip and providing a programmable reference point regardless of air quality at power-on. 2.7 & TImes; 4.0 mm LGA package small form factor design components save up to 60% of the PCB provides design platform technical support, suitable for mass production and high ("5 years life") CCS811 features include: metal oxide (MOX) gas sensor, A microcontroller, an analog-to-digital converter (ADC) and an I2C digital interface are available in a single 2.7 & TImes; 4.0 mm package. The LGA package is suitable for low cost PCB technology. CCS811 can be used to detect ethanol (alcohol and harmful gases such as carbon monoxide (CO) and a wide range of volatile organic compounds (VOC). The CCS811 supports an average of 1.2kW and "6uW optimized for multiple measurement modes in idle mode" for active sensor measurements per minute. Supports the use of intelligent detection algorithms to represent equivalent CO2 (ECO2) and TVOC measurements in real-world environments, where volatile organic compounds are primarily managed from the gas detection process, and integrated MCUs are mainly used to Raw sensor data for the ADC. This greatly reduces the overall system power consumption and processing required on the host system. The CCS811 supports a standard I2C digital interface that is compatible with the application processor and provides a highly integrated solution. Compared to the use of a separate gas sensor and microcontroller chip, it usually requires two or more additional components, CCS811 can save (BOM) cost, save up to 60% of PCB for CCS811 target application is wearable device, smart home , indoor air quality monitoring of smartphones and accessory equipment. The AS6200 in a 1.6mm x 1mm package has a standard current of 6μA at a measurement rate of 4 samples per second and a digital measurement output accurate to ±0.4°C. The device consists of a silicon sensor, an analog to digital converter, a digital signal processor, and a serial I2C interface. The DSP on the chip can perform all linearization calibrations and produce a 12-bit (0.0625°C resolution) binary output. Although the AS6200 is highly integrated, it consumes very little current. In the operating range of 1.8V-3.6V, the AS6200 consumes only 1.5μA in the measurement rate of a single sample. Its conversion rate can be set between 0.25-8Hz. At lower switching frequencies, the power consumption of the sensor is also lower. In standby mode, all chip functions are turned off except for the serial interface, so only 0.1μA is consumed (standard). With its smaller size and lower power consumption, the AS6200 offers new opportunities for battery-powered, mobile and wearable product manufacturers to add digital temperature sensing capabilities to new product designs without regard to consideration. Factors that affect power consumption and space constraints. The use of the AS6200 helps save space and power, so the design of industrial and IoT applications such as industrial program control, cold chain monitoring, etc. will also be improved. The sensor's I2C interface allows two devices to be connected to the same bus. The sensor also has a PIN code that can be dedicated to the alarm function and triggers an interrupt signal in the main microcontroller when the measured temperature exceeds the user's maximum or minimum temperature threshold. Figure 2 - System architecture diagram of digital temperature sensing solution based on Austriamicrosystems AS6200 Austrian Microelectronics' high-precision relative humidity and temperature sensor IC for space and power-constrained design The ENS210 helps enhance the performance of portable and connected smart home devices and deliver new value-added features. The ENS210 provides Kelvin digital temperature output with accuracy up to ±0.2°C from 0°C to 70°C. It also measures relative humidity and outputs in digital form with an accuracy of ±3.5%. The product is calibrated when it is delivered to the customer, so the sensor does not need to be adjusted on the production line. The product provides digital output through an I2C interface, eliminating the need for an application processor (AP) or microcontroller (MCU) for signal processing. Measuring just 2mm x 2mm x 0.75mm, the ENS210 is a surface-mount design that can be used in smartphones and wearable devices including health monitoring bracelets and more. The ENS210 consumes only 40nA in standby mode and 7.1μA in current measurement mode (1Hz down sampling), thus consuming only very little energy from handheld and portable battery. The product operates over a wide input voltage range of 1.71V to 3.6V, meaning that systems with 1.8V/3.3V dual voltage supply do not require additional power components. The product can also be used with austriamicrosystems' CCS811 or CCS801 gas sensor ICs, which detect volatile organic compounds (VOCs) in the air, providing a complete system solution for indoor air quality monitoring. Austrian Microelectronics offers application software and development boards, enabling equipment manufacturers to quickly integrate austriamicrosystems' environmental sensor solutions into the final product design. CMOSIS, which has been acquired by Austrian Microelectronics, is a professional image sensor supplier in Belgium, providing high-performance or customized image sensor chips, which can be divided into line image sensors, area image sensors, miniature module image sensors and Customized image sensors can be applied to industrial vision, scientific research, medical instruments, camera photography or aerospace military industries. Figure 3 - AMS CMOSIS image sensor photo released by Grand Alliance In the online image sensor section, CMOSIS has three series of products: Dragster Line Scan, 4LS Line Scan and Orion Line Scan, which can be applied to industrial vision and medical instrument related industries. In the area image sensor section, CMOSIS has three series of CMV, CHR and CSI products, which can be applied to industrial vision, scientific research, aerospace military and medical instrument related industries. In the image sensor section of the miniature module, CMOSIS has the Nanoeye series, which can be applied to medical instruments and monitoring and inspection related industries. In the customized image sensor section, CMOSIS provides a very flexible customization option, from resolution, transmission interface, pixel size to chip packaging, can be customized according to customer requirements, can be applied to a variety of Related industries. Solder Series Centronic Connector
Solder Series Centronic Connector
Current Rating:5A Solder Series Centronic Connector ShenZhen Antenk Electronics Co,Ltd , https://www.antenkcon.com
Dielectric Withstanding Voltage:1000V for one minute
Insulation Resistance:1000MΩ Min.(at 500V DC)
Contact Resistance:35mΩ Max.
Temperature:-55°C to +105°C