On April 19, 2018, the leading semiconductor component distributor in the Asia-Pacific market, General Assembly of Great General Assembly, announced that its subsidiary Ding Ding has introduced suitable industrial electronics based on Toshiba and AMS products. The complete solution. Including motor drive, magnetic induction position sensor, CCS811/CCS801 gas sensor, AS6200 digital temperature sensor, ENS210 temperature sensor, image sensor, robot block diagram and application products.
Toshiba provides a total solution for industrial electronics. It is manufactured using hybrid DMOS (BiCD) process technology and has higher voltage and current capabilities than existing Bi-CMOS motor drivers and micro-machined high-resolution PPG and high-precision analog control interfaces. Controllers and other components.
At present, Toshiba, with its own efforts, provides customers with the best solutions for motor control microprocessors and motor drives, and is a leader in the industry.
Austriamicrosystems is a leading global designer and manufacturer of high performance analog ICs, providing innovative analog solutions for challenging applications such as sensor and sensor interface, power management and wireless applications. austriamicrosystems The products are mainly used for applications with high precision, wide dynamic range, high sensitivity, anti-noise or ultra low power consumption.
Toshiba Motor Driver
Features The use of a hybrid DMOS (BiCD) process provides high functionality and low power consumption; a wide variety of packages; 异常 anomaly detection enhancements (TSD, ISD and POR); power-on reset (POR): prevents device switching Operational faults; 过热 Thermal shutdown (TSD): Thermal detection circuit detects abnormal overtemperature events in the device; Overcurrent shutdown (ISD): When a short circuit occurs between any device termination and the power supply or ground, the overcurrent detection circuit will Stop the device operation.
AMS magnetic induction position sensor
Magnetic rotary position sensor AS5600
To appeal to manufacturers and users of potentiometers, this new product replaces conventional potentiometers with more reliable non-contact features. The AS5600 features a ratiometric output and a reflective potentiometer output (which is a variable resistance). This means if the potential The user wants to replace the potentiometer with the AS5600 without having to change the application code running on their microcontroller. The AS5600 can not only provide up to 12-bit resolution for rotations from 0-360°, but also uses potentials such as knobs and dials. Measure the angular displacement in the application device.
The magnetic rotary position sensor AS5600 further expands Austrian Microelectronics' broad lineup of magnetic position sensor products. The austriamicrosystems' magnetic position sensor family contains all patented differential detection technology and is highly immune to stray magnetic fields. The rotational motion of the magnetic position sensor is measured by measuring the magnetic field change of the paired magnet, so it is more reliable than the contact method of the potentiometer, and will not be affected by dust, dirt, humidity, water and vibration and other factors.
The AS5600 not only has more reliability and better performance than potentiometers, it also introduces a new power-saving mode, making its low power consumption comparable to that of potentiometers. It operates in four power-saving modes and can be automatically adjusted after 1 minute of rest. Switch to low-power mode. In this mode, the AS5600 scans and rotates 10 times in 1 second. When the rotation is detected, the AS5600 will immediately switch to the user-selected power mode while operating at a higher frequency. In power mode, the AS5600 consumes only up to 1.5mA.
The accuracy of the AS5600 is very high because of the Hall element on the chip. The Hall element is a high performance functional block created by austriamicrosystems on all magnetic position sensors. Non-linearity rotates in full 360° At the same time, the digital output is only ±0.28% over the entire device's temperature range. The maximum noise is 0.015° rms.
Magnetic Rotary Position Sensor AS5047P
The new AS5047P has a higher speed and a more precise incremental output that can be used for motor and motion control. Like other products of the Austria Microelectronics 47 series, the new AS5047P has DAECTM (Dynamic Angle Error Compensation) technology even when Accurate angle measurement at very high speeds. The high rotational speed performance of the 47 series magnetic sensors and the ABI incremental output make it a perfect replacement for optical encoders. Designed based on the 47 series, the total system cost is usually well below An equivalent optical encoder or decoder.
Austrian Microelectronics has also added a single run step for the incremental ABI output of the component. The ABI output value of the 47 series is equivalent to the output value of a standard optical encoder, so the motor control system designer does not need to change the control software or interface. An Austrian microelectronic magnetic position sensor can be used instead of an optical encoder. In the AS5047P ABI output decimal mode, the highest resolution per revolution is up to 4000 steps/1000 pulses, and in the binary mode, the highest resolution of the ABI output is up to each Turn 4096 steps/1024 pulses. This means that the magnetic position sensor will replace the optical encoder in more applications.
Like other austriamicrosystems magnetic position sensors, the AS5047P is extremely immune to stray magnetic fields and is not affected by dirt, dust, grease, moisture, and other contaminants, and these factors are often reduced. Optical encoder performance.
The DAEC technology of the AS5047P can compensate for the dynamic angle error caused by the propagation delay of the raw measurement data due to the magnetic field intensity of the sensor. The DAEC technology eliminates the need for the system designer to use a separate error compensation circuit on an external DSP or microcontroller. This technology also enables the AS5047P to achieve extremely high accuracy, with a maximum error of only 0.34° (without non-linear integrals) at a sustained speed of 28,000 rpm.
CCS811/CCS801 Gas Sensors
Features of the CCS801 and CCS811 include: Integrated MCU management sensor drive mode and simultaneous measurement of VOCs on-board processing indoor air quality indications, eliminating the need for external MCU resources to provide standard digital interfaces for simple development, and accelerating time-to-market optimization Consumption mode, which extends battery life and is particularly suitable for portable application air quality alarms without continuous monitoring in software, reduces main chip power consumption, and provides a programmable reference point regardless of air quality conditions at power up.
2.7 x 4.0 mm LGA Package Small Form Factor Design Components Small Saves Up to 60% PCB Provides Design Platform Technical Support, Suitable for Mass Production and High (>5 Years Life) CCS811 Features include: Metal Oxide (MOX) Gas Sensor, Micro Controller, an analog-to-digital converter (ADC) and an I2C digital interface in a single 2.7 x 4.0 mm package, LGA package for low cost PCB technology. The 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).
CCS811 Supports Low Power Consumption Averaged for Active Sensor Measurements Per Minute<1.2MW和<6uW在闲置模式下优化多个测量模式. 支持利用智能检测算法来表示等效CO2 (ECO2) 和在真实世界环境中的TVOC测量, 其中, 挥发性有机化合物的主要是从气体检测过程中管理该传感器驱动模式, 集成的MCU主要用于来自ADC的原始传感器数据. 这大大降低了主机系统上所需的整体系统功耗和处理.
The CCS811 supports a standard I2C digital interface that is compatible with the application processor and provides a highly integrated solution. Compared to using a separate gas sensor and microcontroller chip, it usually requires two or more additional components. The CCS811 can The cost savings (BOM), saving up to 60% of the PCB for the CCS811 target application is the indoor air quality monitoring of wearable devices, smart homes, smart phones and accessory devices.
AS6200 Digital Temperature Sensor
With the AS6200 in a 1.6mm x 1mm package, the standard current is 6μA at a measurement rate of 4 samples per second, and its digitized measurement output can be accurate to ±0.4°C.
The device consists of a silicon energy sensor, an analog-to-digital converter, a digital signal processor, and a serial I2C interface. The on-chip DSP performs all linearization calibrations and produces a 12-bit (0.0625°C resolution) Binary output.
Although the AS6200 is highly integrated, it consumes very little current. Within the operating range of 1.8V-3.6V, the AS6200 only consumes 1.5μA in the measurement rate of a single sample. Its conversion rate can be set between 0.25-8Hz. At lower conversion 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 0.1 μA is consumed (standard case).
Because of its smaller size and lower power consumption, the AS6200 can provide battery-powered, mobile and wearable product manufacturers with new opportunities to add digital temperature sensing capabilities to new product designs without having to consider Factors affecting power consumption and space constraints. Using the AS6200 can help save space and power consumption, so industrial and IoT applications such as industrial process control and cold chain monitoring 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. When the measured temperature exceeds the user-set maximum or minimum temperature threshold, the master will be triggered. Microcontroller interrupt signal.
ENS210 temperature sensor
Austriamicrosystems' high-accuracy relative humidity and temperature sensor ICs for space- and power-constrained designs The ENS210 helps improve the performance of portable and connected smart home devices and enables high-value new functions.
The ENS210 can provide a Kelvin temperature output with an accuracy of up to ±0.2°C from 0°C to 70°C. It can also measure relative humidity and output in digital form with an accuracy of ±3.5%. It is calibrated when delivered to the customer, so the sensor no longer needs to be adjusted on the production line. The product provides digital output via an I2C interface, eliminating the need for an application processor (AP) or microcontroller (MCU) for signal processing.
The ENS210 is only 2mm x 2mm x 0.75mm in size. It has a surface mount design and can be used in smart phones and wearable devices including health monitoring wristbands.
The ENS210 consumes only 40nA in standby mode and consumes 7.1μA in active measurement mode (1Hz downsampling), thus consuming very little energy from handheld and portable product batteries. The product can operate over a wide input voltage range of 1.71V‐ Operating at 3.6V means that systems with a 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. The latter two can detect volatile organic compounds (VOCs) in the air, providing a complete system solution for indoor air quality monitoring. Electronics can provide application software and development boards. Device manufacturers can quickly integrate Austrian Microelectronics' environmental sensor solutions into the final product design.
AMS's COMSIS Image Sensor
CMOSIS, which has been acquired by austriamicrosystems, is a Belgian professional image sensor supplier that provides high-performance or custom-made image sensor chips. Its products can be divided into linear image sensors, surface image sensors, miniature module image sensors and Customized image sensors can be used in industrial vision, scientific research, medical instruments, camera photography or space and military industries.
The online image sensor part, CMOSIS has Dragster Line Scan, 4LS Line Scan and Orion Line Scan three series of products, can be applied to industrial vision and medical instrument related industries.
In the area image sensor part, CMOSIS has three major series of products: CMV, CHR and CSI. It can be used in industrial vision, scientific research, aerospace, military and medical instrument related industries.
In the miniature module image sensor part, CMOSIS has Naneye series products, which can be applied to medical instruments and monitoring related industries.
In the customized image sensor part, CMOSIS offers very flexible customization options. From the resolution, transmission interface, pixel size to the chip packaging method, customized image sensors can be customized according to customer requirements. Kind of related industries.