是一个标准的Fieldb致动器传感器接口us interface for connecting binary actuators and sensors in a PLC, DCS, or PC-based automation system. It is the only worldwide standardized bit-oriented Fieldbus. Traditionally, actuators and sensors were connected to a PLC controller or other controller using parallel wiring. The complex nest of wires was hard to install, maintain, and troubleshoot. Parallel wiring was also quite expensive. Then, in the late 1980s and early 1990s, the AS-i was developed by Siemens in partnership with ten other companies as a serial interface for low-level actuators and sensors. The interface provides industrial networking for the lowest process level in automation systems.

AS-i simplifies networking sensors and actuators by reducing the network to two wires. The same wires are used to power the input/output devices i.e. the sensors and actuators. It connects binary sensors and actuators that are simple on/off devices. The AS-i networks can be connected to higher-level networks like PROFIBUS, DeviceNet, and Industrial Ethernet. The interface allows connecting 31 or 62 slave devices within 100 meters. The range can be extended up to 300 meters using repeaters. The Fieldbus even allows communication of analog data. With a flexible topology, the interface also provides a safety functionality called “AS-i Safety at Work”. There is no doubt why this serial interface has become the de facto standard for simple input/output networking in automation.

What is an actuator sensor interface?
Actuator Sensor Interface is a standard bit-oriented field bus connecting binary sensors and actuators at the lowest process level in automation. It connects simple nodes like pushbuttons, limit switches, process valves, solenoids, relays, indicators, and on-off devices with PLC or another controller. The interface has allowed replacing complex cable harness entirely with an AS-i cable, which is a simple non-shielded non-twisted 2-wire cable. The cable enables transferring of standard and safety-oriented data on the same line. Also, low-power sensors and actuators can be powered by the same cable. In most automation sites, AS-i is now the de facto networking solution for the first level of automation due to its simplicity, low cost, flexibility, and safety features.

Why AS-i?
在工业自动化,底层传感器d actuators are the bulk of devices that must first be installed and set up. These simple command devices are the majority of the network. Their installation, maintenance, and troubleshooting are the most tedious work for automation engineers. If the majority of devices are connected to the PLC controller by discrete cables, sorting out the mesh is the most frustrating thing. AS-i not just simplifies cabling but it provides a standard networking protocol for communicating with the majority of I/O devices on the field.

The AS-i interface simplifies cabling at low-level automation and minimizes assembly cost. The field bus can be installed in various topologies like bus, star, ring, daisy chain, tree, etc. AS-i is flexible and fast to install and set up with fewer components. This is the safest, simplest, and fastest connectivity solution on the field.

The only components required to set up the Fieldbus are the AS-i master, AS-i interface, and AS-i yellow cable. There is no need for T-pieces or pre-assembled cables to connect the devices. The I/O devices need to be simply screwed to a single 2-core yellow cable, and that’s it. The modules (AS-i interfaces) connecting the devices with the cable simply pierce the rubber insulation of the cable and establish secure contact with each of the two cable wires via two gold-plated needles respectively. Among all available low-level replacement networks, AS-i is the most cost-effective option with the greatest performance and safety. It has almost no assembly cost and no chance of installation error. Being non-twisted, there is no need for striping or terminating the cable.

相同的电缆允许通信标准数据和面向安全的数据，同时，它还为设备提供电源。AS-I是唯一与所有其他高级现场总务系统兼容的低水平场合总线，包括Profibus，Industrial Ethernet，Profinet，DeviceNet，CC-Link等。最新标准甚至允许将智能传感器插入IO-Link等智能传感器。虽然AS-I 3.0允许仅将简单命令（ON/OFF）设备与PLC控制器连接，但最新的AS-I 5.0标准允许以更高的速率传达更大的数据量。

AS-I standard
The interface was developed by Siemens and some other companies in the 1990s. From its very conception, AS-i was developed as an open technology. Soon after its development, a member-based organization called AS International Association was formed for standardization and further development of the protocol. The technology complies with global standard IEC 62026-2:2015 and local standards, including EN 50295 (Europe), GB/T18858.2 (China), JIS C 82026-2 (Japan), and KS C IEC 62026-2 (South Korea).

AS-i components
AS-I兼容的低级传感器和执行器可从数百个自动化供应商那里获得。在全球范围内已经安装了数百万AS-I现场设备。这些简单命令的输入/输出设备包括电感接近开关，按钮，过程阀，可变速度3相机，键盘，键盘，限制开关，指示器，光屏障和许多其他开/关设备。这些设备可以在任何可选拓扑中的自动化字段中连接。AS-I的三个主要组成部分。

1. AS-i Master: The AS-i field devices connect to a PLC or controller through a master-slave architecture. The AS-i master acts as a gateway for the devices to connect with the controller or higher-level control system. The devices operate as slave devices in the network. A single AS-i master can connect up to 62 slave devices to the PLC controller transferring up to four inputs and four outputs from each device at any time. Both digital and analog data can be communicated over cable. The master is responsible for setting line parameters, managing data traffic on the line, running diagnostics, and monitoring slave devices.
2. AS-i Cable: This is a yellow non-shielded non-twisted cable with two cores. The cable has a line impedance of 70~140 ohm. The cable carries both data and power to the field devices. An additional flat black cable is sometimes used to supply 24V DC to actuators. For special applications, a round cable may also be used. The field devices can be attached anywhere on the cable as it uses a special piercing technology for connecting modules, as mentioned above. The piercing mechanism also ensures no loose connection and eliminates any chance of reverse polarity.
3. AS-i Nodes: These modules attach sensors and actuators with the AS interface cable. The nodes are designed to penetrate the profile cable vertically, setting up a secure connection with the cores using four gold-plated needles.

Apart from the main components, a power supply unit providing constant 30V DC to both the AS-i master and the field devices is required. If the power is supplied on the AS-i cable alone, the power supply unit acts as a data de-coupler separating the data signals and the power supply. For field devices powered by standard 24V, even a 30V DC power supply unit is not required. Such devices can draw power from the PLC rack system itself.

The field devices may be directly connected to a PLC controller through the AS interface master in the PLC rack or connect to a higher-level Fieldbus like PROFIBUS or DeviceNet again through the AS-i master only.

How AS-i works
The field devices are connected in AS-i in a master-slave configuration. The slave devices are available in two addressing modes – Standard AS-i slaves (A slaves) and AS-i slaves with extended addressing mode (A/B slaves). With a single AS-i master, up to 31 standard AS-i slaves can be connected. Since A/B slaves can operate in pairs at the same address, up to 62 AS-i slaves with extended addressing mode can be connected to a single AS-i master.

每个标准AS-I从可以接收4位数据并发送4位数据。通常，这些位用作二元传感器或二元执行器。这意味着最多可以将多达4个二元传感器和四个二元执行器连接到标准AS-I从属的每个AS-I节点。因此，可以在具有标准AS-I从属的AS-I网络上完成248个二进制附件（124个输入和124个输出）。如果使用具有扩展地址模式的AS-I奴隶，则节点可以接收8位数据并发送8位数据。因此，最多可以连接8个二元传感器和8个二元执行器，并连接到AS-I上的每个AS-I节点，可在AS-I上共有496个附件（248个输入和248个输出）。

The AS-i mater poll through each field device in a periodic manner. In the AS-i protocol, the scan time for a field device is very fast. It is faster than the input/output scanning in a typical PLC network. The protocol uses constant message lengths, so there is no requirement for controlling transmission or interpreting data size or format. The maximum scan time for standard AS-i slaves is 5ms. The maximum scan time for AS-i slaves with extended addressing mode is 10ms. If there is only one A/B slave connected to the interface, the maximum scan time remains 5ms. But if more than one A/B slave is connected to the interface, the maximum scan time is stretched to 10ms. For time-critical applications, the bandwidth for 4 A/B slaves can be reserved for a single A/B slave to reduce the maximum scan time to 5ms.

Due to fixed-length messages and cyclic polling methods, the time required for communication between the master and the slave devices is always predictable. This enables switching the device with a calculated accuracy. All the field devices are recognized on the interface by the master only through the addressing mode. There is no need to configure the master or the slave or set up any configuration parameters across the interface. The Combi field devices like text display modules, pressure sensors, slow analog sensors, and counter modules communicate over the interface via the serial protocol. The typical data rate on the AS-i interface is 167 Kbps. That means it takes 6 microseconds to communicate each bit.

AS-i bus line modulation
The data transmitted on the AS-i interface exists in non-return to zero forms. It is encoded using Manchester format. The Manchester encoded line currents are then differentiated to alternating pulse modulation (APM). The AMP signals are ac coupled to the line and superimposed on +/-2V DC level.

On the receiver side, positive and negative pulses are recovered and reconstructed to the original data.

AS-I协议
The AS-i mater poll each field device by a sequence. The master and slave have a maximum of 5ms or 10ms to exchange messages depending upon the addressing mode of the AS-i slave. When polling a slave, the master communicates a 14-bit call to the slave device. The 14-bit frame consists of 1 start bit (MSB), one control bit, 5-bit address, 5-bit command or data, one parity bit, and one end bit (LSB). The slave devices respond by transmitting a 7-bit frame, which consists of 1 start bit (MSB), 4-bit data requested by the master, one parity bit, and one stop bit (LSB).

我在工作中安全
The AS-i can also connect work-safety components like emergency stop pushbuttons, laser scanners, safety light barriers, and door contacts. This feature is called “AS-i Safety at Work”. The typical AS-i remains unchanged upon adding the feature. The function is enabled by simply adding a safety monitor and safety slaves to the AS-i. The interface is then allowed to transfer both standard and safety-oriented data from the safety slaves to the safety monitor. The setup works even without fail-safe PLC or any specialized AS-i masters.

安全的AS-I奴隶不断从安全输入中获取数据。使用动态安全协议将面向安全的数据传达给同一总线上的安全监视器。根据协议，安全监视器在每个周期中寻找安全奴隶的特定响应。根据算法，动态更改从属的响应的数据框架。相应地在安全监视器上配置了关闭逻辑。如果安全监视器未从相应的安全节点接收预期的数据框架，则将其解释为警报，并且在40ms的最大响应时间内启动关闭过程。

ASI-SAFE是TUV认证的系统，直至安全完整性级别3（SIL 3）。这是为自动化环境增加安全性的绝佳方法。

AS-I巴士上的模拟传输
AS-I总线能够传输数字化的模拟值。对于模拟传输，标准AS-I从设备上的4位输出分为三个模拟位和一个握手。AS-I主体在第一个周期中启动模拟模式。相反也是可能的。AS-I主人还可以将模拟值发送到从属。加工技术广泛使用AS-I上的模拟传输。

Applications of AS-i
AS-i is a global standard. It has been widely adopted worldwide for networking binary actuators and sensors for factory automation, industrial process control, and building automation.

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