-
浔之漫智控技术(上海)有限公司
主营:西门子低压电器授权代理商,西门子PLC模块总代理商,西门子模块总代理商,西门子中国一级代理商,西门子PLC一级代理商,西门子DP电缆代理商
浔之漫智控技术(上海)有限公司
主营:西门子低压电器授权代理商,西门子PLC模块总代理商,西门子模块总代理商,西门子中国一级代理商,西门子PLC一级代理商,西门子DP电缆代理商
3
西门子西北地区代理商
西门子西北地区代理商
SMC30 Sensor Module Cabinet-Mounted
The SMC30 Sensor Module Cabinet-Mounted is required to evaluate the encoder **s of motors without a DRIVE‑CLiQ interface. External encoders can also be connected via the SMC30.
The following encoder **s can be evaluated:
Incremental encoders TTL/HTL with/without open-circuit detection (open-circuit detection is only available with bipolar **s)
SSI encoder with TTL/HTL incremental **s
SSI encoder without incremental **s
The motor temperature can also be sensed using a PTC thermistor KTY84‑130, Pt1000 1) or PTC.
1) The Pt1000 sensor is not supported when combined with a Control Unit CU305.
The SMC30 Sensor Module Cabinet‑Mounted features the following connections and interfaces as standard:
1 encoder connection including motor temperature sensing (KTY84‑130, Pt1000 1) or PTC) either via SUB-D connector or via terminals
1 DRIVE-CLiQ interface
1 connection for the electronics power supply via the 24 V DC supply connector
1 PE/protective conductor connection
The status of the SMC30 Sensor Module Cabinet-Mounted is indicated via a multi-color LED.
The SMC30 Sensor Module Cabinet-Mounted can be snapped onto a TH 35 standard mounting rail in according to EN 60715 (IEC 60715).
The maximum encoder cable length between SMC30 modules and encoders is 100 m. For HTL encoders, this length can be increased to 300 m if the A+/A- and B+/B- **s are evaluated and the power supply cable has a minimum cross-section of 0.5 mm2.
The ** cable shield can be connected to the SMC30 Sensor Module Cabinet‑Mounted via a shield connection terminal, e.g., Phoenix Contact type SK8 or Weidmüller type KLBÜ CO 1. The shield connection terminal must not be used as a strain relief mechanism.
1) The Pt1000 sensor is not supported when combined with a Control Unit CU305.
SMC30 Sensor Modules Cabinet-Mounted communicate with a Control Unit via DRIVE-CLiQ.
| SMC30 Sensor Module Cabinet-Mounted 6SL3055-0AA00-5CA2 |
|---|---|
Current requirement, max. at 24 V DC, | 0.2 A |
Conductor cross-section, max. | 2.5 mm2 |
Fuse protection, max. | 20 A |
Power loss, max. | 10 W |
Encoders which can be evaluated | Incremental encoder TTL/HTL SSI encoder with TTL/HTL incremental **s SSI encoder without incremental **s |
Input current range TTL/HTL | 4 ... 20 mA (typ. 10 mA) |
Encoder supply | 24 V DC/0.35 A or 5 V DC/0.35 A |
Encoder frequency, max. | 500 kHz |
SSI baud rate | 100 ... 1000 kBaud |
Limiting frequency | 500 kHz |
Resolution absolute position SSI | 30 bits |
Cable length, max. |
|
TTL encoder | 100 m (328 ft) (only bipolar **s permitted)1) |
HTL encoder | 100 m (328 ft) for unipolar **s |
SSI encoder | 100 m (328 ft) |
PE connection | M4 screw |
Dimensions |
|
Width | 30 mm (1.18 in) |
Height | 150 mm (5.91 in) |
Depth | 111 mm (4.37 in) |
Weight, approx. | 0.45 kg (0.99 lb) |
Certificate of suitability | cULus |
1) Signal cables twisted in pairs and shielded.
The following drives and controls can be engineered in a user-friendly way using the SIZER for Siemens Drives engineering tool:
SIMOTICS low-voltage motors, including servo geared motors
SIMOGEAR geared motors
SINAMICS low-voltage drive systems
Motor starters
SINUMERIK CNC
SIMOTION Motion Control controller
SIMATIC controller
It provides support when selecting the technologies involved in the hardware and firmware components required for a drive task. SIZER for Siemens Drives covers the full range of operations required to configure a complete drive system, from basic single drives to demanding multi-axis applications.
SIZER for Siemens Drives supports all of the engineering steps in one workflow:
Configuring the power supply
Designing the motor and gearbox, including calculation of mechanical transmission elements
Configuring the drive components
Compiling the required accessories
Selecting the line-side and motor-side power options, e.g. cables, filters, and reactors
When SIZER for Siemens Drives was being designed, particular importance was placed on a high degree of usability and a universal, function-based approach to the drive application. The extensive user guidance makes it easy to use the tool. Status information keeps you continually informed about the progress of the configuration process.
The drive configuration is saved in a project. In the project, the components and functions used are displayed in a hierarchical tree structure.
The project view permits the configuration of drive systems and the copying/inserting/modifying of drives already configured.
The configuration process produces the following results:
A parts list of the required components (export to Excel, use of the Excel data sheet for import to SAP)
Technical specifications of the system
Characteristic curves
Comments on line harmonic distortions
Mounting arrangement of drive and control components and dimensional drawings of motors
Energy requirements of the configured application
These results are displayed in a results tree and can be reused for documentation purposes.
Support is provided by the technological online help menu:
Detailed technical specifications
Information about the drive systems and their components
Decision-making criteria for the selection of components
Online help in English, French, German, Italian, Chinese and Japanese
PG or PC, with Pentium III min. 800 MHz (recommended > 1 GHz)
512 MB RAM (1 GB RAM recommended)
At least 2 GB of free hard disk space
An additional 100 MB of free hard disk space on Microsoft Windows system drive
Screen resolution 1024 × 768 pixels
Operating system:
Microsoft Windows 7 (32/64-bit) Professional, Enterprise, Ultimate, Home
Microsoft Windows 8.1 (32/64-bit) Professional, Enterprise, Ultimate, Home
Microsoft Windows 365
Microsoft Windows 10 (64-bit) Professional, Enterprise
Microsoft Office 2003/2007/2010/2013/2016
Microsoft Internet Explorer V8.0
Microsoft .NET Framework 2.0
OpenGL 2.1