Description
Overview
Essential details:140CPU67160 MODICON QUANTUM UNITY HOT STANDBY PROCESSOR
Product Description
Introduction
The Schneider Electric 140CPU67160 represents a pinnacle in CPU technology, designed to meet the demanding requirements of industrial automation systems. As a critical component within such setups, this CPU offers advanced features and capabilities aimed at ensuring seamless operation and efficient management of processes. Let’s explore its specifications and functionalities in detail.
Manufacturer: Schneider Electric
Hailing from the reputable stable of Schneider Electric, a leader in industrial automation solutions, the 140CPU67160 embodies the company’s commitment to excellence and innovation. With a focus on reliability and performance, Schneider Electric delivers a CPU that meets the stringent demands of modern industrial applications.
Type: CPUs
As a CPU (Central Processing Unit), the 140CPU67160 serves as the brain of industrial control systems, orchestrating various tasks and processes to ensure smooth operation. Its robust design and advanced features make it an integral part of complex automation setups, providing the necessary computing power and versatility required in industrial environments.
Model #: 140-CPU-671-60
The model number 140-CPU-671-60 uniquely identifies this CPU within Schneider Electric’s product lineup, denoting specific features and capabilities tailored to meet industrial requirements. With this designation, users can easily distinguish and identify the CPU within their automation systems.
Product parameter
Part Number | 140CPU67160 |
Manufacturer | Schneider Electric |
Type | CPUs |
Model # | 140-CPU-671-60 |
Warranty | 2 Year |
Electrical connection | 1 connector, connector type: RJ45 for connecting Ethernet network |
1 connector, connector type: RJ45 for connecting Modbus bus | |
1 female connector, connector type: SUB-D 9 for connecting to the Modbus Plus network | |
Product or component | Unity processor |
Mode of transmission | Multimode |
Clock frequency | 266 MHz |
Number of slots | 10 |
16 | |
2 | |
4 | |
6 | |
Number of racks | 2 – local rack(s) |
Number of distributed I/O station | 63 station(s) – 1 rack(s) – 3 distributed network(s) |
Number of remote I/O station | 31 – 2 remote rack(s) |
Discrete I/O number | 8000 inputs, 8000 outputs – distributed – per network |
31744 inputs, 31744 outputs – remote | |
Unlimited (26 slots max) – local – forbidden in Hot Standby application |
Analogue I/O number | Unlimited (26 slots max) – local – forbidden in Hot Standby application |
500 inputs, 500 outputs – distributed – per network | |
1984 inputs,1984 outputs – remote | |
Application specific I/O | Accurate time stamping |
Counter | |
High-speed interrupt inputs | |
Serial link | |
Number of optional modules | 6 (Ethernet, Modbus, Modbus Plus, Profibus DP, Sy/Max) |
Maximum number of connections | Unlimited (AS-Interface) – local |
6 (Profibus DP) – local | |
6 (Modbus Plus) – local | |
6 (Ethernet TCP/IP) – local | |
4 (AS-Interface) – remote | |
2 (AS-Interface) – distributed | |
1 (USB) | |
1 (Modbus) – RS232/485 Modbus/ASCII | |
Integrated connection type | 1 Ethernet TCP/IP |
1 Modbus | |
1 Modbus Plus | |
1 USB | |
Checks | Hot standby |
Process control |
Memory description | Internal RAM 1024 kB – 512 kB for data |
Expandable 8 MB – file storage with PCMCIA card | |
Expandable 7168 kB – program with PCMCIA card | |
Switch function | Key switch memory port on/off |
Application structure | 4 auxiliary tasks – forbidden in Hot Standby application |
32 timer interrupt tasks – forbidden in Hot Standby application | |
128 interrupt tasks – forbidden in Hot Standby application | |
128 I/O interrupt tasks – forbidden in Hot Standby application | |
1 periodic fast task – forbidden in Hot Standby application | |
1 cyclic/periodic master task | |
Execution time per instruction | 0.4…0.5 µs floating points |
0.0525…0.075 µs Boolean | |
0.045…0.06 µs on word | |
0.045…0.06 µs on fixed-point arithmetic | |
Execution time for 1 K instruction | 10.28 100 % Boolean |
10.07 65 % Boolean and 35 % numerical | |
System overhead | 1 ms – master task |
0.2 ms – fast task | |
Bus current requirement | 2500 mA |
Local signalling | 1 LED red for Ethernet collision |
1 LED green for Ethernet activity (COM) |
APPLICATION 140CPU67160 MODICON QUANTUM UNITY HOT STANDBY PROCESSOR
Connectivity and Networking
Equipped with multiple connectors, including RJ45 connectors for Ethernet and Modbus network connections, as well as a SUB-D 9 female connector for Modbus Plus network connectivity, the 140CPU67160 facilitates seamless integration into diverse industrial networks. Its support for various communication protocols ensures compatibility and interoperability with a wide range of devices and systems.
Performance and Specifications
With a clock frequency of 266 MHz, the 140CPU67160 delivers the processing power necessary to handle complex tasks efficiently. Offering flexibility in system configuration, it supports up to 10 slots, accommodating a variety of expansion modules and peripherals to meet specific application requirements.
I/O Handling and Expansion
The CPU boasts impressive I/O handling capabilities, supporting up to 8000 inputs and 8000 outputs in distributed configurations per network, and 31744 inputs and outputs in remote setups. With support for application-specific I/O such as accurate time stamping and high-speed interrupt inputs, it caters to a wide range of industrial automation needs.
Memory and Storage
Featuring internal RAM of 1024 kB, expandable memory of up to 8 MB for file storage via PCMCIA card, and up to 7168 kB for program storage, the 140CPU67160 provides ample memory resources for storing data and programs essential for system operation.
Execution Time and Efficiency
With execution times as low as 0.4 to 0.5 µs for floating-point operations and 0.045 to 0.06 µs for Boolean and fixed-point arithmetic, the CPU ensures fast and efficient processing of instructions, contributing to overall system performance and responsiveness.
System Monitoring and Diagnostics
Equipped with LED indicators for Ethernet collision and activity, the CPU provides visual cues for system status and network communication, facilitating troubleshooting and maintenance tasks.