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6SL3210-1PH22-3UL0
西门子产品订货号：6SL32101PH223UL0

西门子产品价格：168  RMB

西门子产品净重：1.100 Kg

西门子产品承诺：质保一年，原装*

西门子产品尺寸：270.00 x 225.00 x 85.00

概述

SINAMICS G120C, frame sizes FSAA to FSF, with Inligent Operator Panel IOP

SINAMICS G120C compact inverters offer a well-balanced combination of features to address a wide range of applications. They are compact, rugged devices that are easy to operate and can be optionally equipped with a basic or advanced operator panel.

SINAMICS G120C inverters are especially suitable when it comes to meeting the requirements of system integrators, OEMs and distributors regarding high productivity and tailored performance.

优势

• Compact design
• Side-by-side design
• High power density, low envelope dimensions
• Simple installation in the tightest space
• Low space requirement
• Use in small control cabinets, close to the machine
• Optimized parameter set
• Optimized commissioning
• Getting Started document
• BOP‑2 or IOP operator panels can be used
• Integrated USB connection
• Simple and fast software parameter assignment
• Simple to use during commissioning and in operation
• Minimized training costs, existing SINAMICS know-how can be used
• High degree of service friendliness, simple maintenance
• Plug-in terminals
• Cloning function using BOP‑2, IOP or memory card
• Operating hours counter for "drive on" and "motor on"
• Fast mechanical installation
• Intuitive standard commissioning
• Component of Totally Integrated Automation
• Energy-efficient, sensorless vector control
• Automatic flux reduction with V/f ECO
• Integrated energy saving computer
• Safety Integrated (STO)
• Communications versions with PROFINET / EtherNet/IP, PROFIBUS DP, USS/Modbus RTU
• Coated modules
• Operation up to an ambient temperature of 60 °C (140 °F)

设计

SINAMICS G120C is a compact converter for control cabinet mounting in IP20 degree of protection where the Control Unit (CU) and Power Module (PM) function units are combined in one device.

The compact mechanical design and the high power density allow these devices to be installed in machine control enclosures and control cabinets for maximum space utilization. The SINAMICS G120C compact converter can be butt-mounted directly, without derating at temperatures up to 40 °C (104 °F).

SINAMICS G120C, frame size FSAA with BOP-2

SINAMICS G120C can be integrated into the widest range of applications, either using the integrated digital and analog inputs or via the integrated fieldbus interface (available in USS, Modbus RTU, PROFIBUS, PROFINET / EtherNet/IP versions). Especially the product versions with integrated PROFIBUS/PROFINET interface make full integration into the Siemens TIA family possible, therefore allowing the advantages of the seamless TIA product family to be fully utilized. SINAMICS G120C devices are preset in the factory so that they can be immediay connected to PROFIBUS and/or PROFINET fieldbus systems without parameterization.

SINAMICS G120C is also equipped with the safety function STO (Safe Torque Off) as standard, which is used to safely stop drives. As a consequence, machine manufacturers can simply comply with current machinery directives with minimum associated costs.

SINAMICS G120C can control asynchronous (induction) motors in the power range from 0.37 kW up to 132 kW (0.5 hp to 200 hp). Reliable and efficient motor operation is achieved by using state-of-the-art IGBT technology combined with vector control. The extensive range of functions integrated in the SINAMICS G120C also offers a high degree of protection for the converter and motor.

Line-side components

Line reactors

Line reactors smooth the current drawn by the converter and thus reduce harmonic components in the line current. Through the reduction of the current harmonics, the thermal load on the power components in the rectifier and in the DC-link capacitors is reduced as well as the harmonic effects on the supply. The use of a line reactor increases the service life of the converter.

Recommended line-side power components

Standard fuses can be used for the SINAMICS G120C. These must be dimensioned to comply with local regulations. In this chapter, you will find recommended components such as fuses and circuit breakers in compliance with IEC and UL regulations.

DC link components

Braking resistors

Excess energy in the DC link is dissipated in the braking resistor. The braking resistors are designed for use with the SINAMICS G120C. This has an integrated braking chopper (electronic switch).

Load-side power components

Output reactors

Output reactors reduce the rate of voltage rise (dv/dt) and the height of the current peaks, and enable longer motor cables to be connected.

Supplementary system components

Inligent Operator Panel IOP

Graphics-based, user-friendly and powerful operator panel for commissioning and diagnostics as well as local operator control and monitoring of SINAMICS G120C.

Basic Operator Panel BOP-2

A 2-line display to provide support when commissioning and troubleshooting the drive. The drive can be locally controlled.

Memory card

The parameter settings for an inverter can be stored on the SINAMICS SD memory card. When service is required, e.g. after the inverter has been replaced and the data have been downloaded from the memory card the drive system is immediay ready for use again. The associated memory card holder is integrated in the inverter.

PC inverter connection kit 2

For controlling and commissioning an inverter directly from a PC if the STARTER commissioning tool or SINAMICS Startdrive has been installed on the PC.

Spare parts

Shield plates

A set of shield plates is included in the scope of delivery for the motor and signal cables corresponding to the frame size of the SINAMICS G120C, and can also be ordered as spare parts.

Spare parts kit

This kit comprises four I/O terminals, one RS485 terminal, two pairs of Control Unit doors (1 × PN and 1 × other communication versions) and one blanking cover.

Set of connectors

A set of connectors for the line feeder cable, braking resistor and motor cable can be ordered corresponding to the frame size of the SINAMICS G120C inverter.

Roof-mounted fan

A roof-mounted fan (at the top of the device) comprising a pre-assembled unit with holder and fan can be ordered corresponding to the frame size of the SINAMICS G120C.

Fan unit

A replacement fan (at the rear of the device; heat sink) comprising a pre-assembled unit with holder and fan can be ordered corresponding to the frame size of the SINAMICS G120C.

集成

Connection example for SINAMICS G120C

USS/Modbus RTU communication interface

PROFIBUS DP communication interface

PROFINET, EtherNet/IP communication interface

6SL3210-1PH22-3UL0
西门子产品订货号：6SL32101PH223UL0

西门子产品价格：168  RMB

西门子产品净重：1.100 Kg

西门子产品承诺：质保一年，原装*

西门子产品尺寸：270.00 x 225.00 x 85.00

PM240, PM240‑2 and PM250 Power Modules

西门子产品订货号：6SL32101PH223UL0

西门子产品价格：168  RMB

西门子产品净重：1.100 Kg

西门子产品承诺：质保一年，原装*

西门子产品尺寸：270.00 x 225.00 x 85.00

可编程逻辑器件在数字系统中的应用

  
    关键词：数字信号处理 乘法器VHDL PLD
1 引言
随着半导体技术的发展，可编程逻辑器件在结构、工艺、集成度、功能、速度和灵活性等方面有了很大的改进和提高，从而为高效率、高质量、灵活地设计数字系统提供了可靠性。CPLD或FPGA技术的出现，为DSP系统的设计又提供了一种崭新的方法。利用CPLD或FPGA设计的DSP系统具有良好的灵活性和*的实时性。同时，其价格又可以被大众接受。由于乘法器在数字信号处理系统中具有广泛的应用，所以本文以乘法器的处理系统中具有广泛的应用，所以本文以乘法器的设计为例，来说明采用可编程逻辑器件设计数字系统的方法。如果想使系统具有较快的工作速度，可以采用组合逻辑电路构成的乘法器，但是，这样的乘法器需占用大量的硬件资源，因而很难实现宽位乘法器功能。本文这种用于序逻辑电路构成的乘法器，既节省了芯片资源，又 能满足工作速度及原理的要求，因而具有一定的实用价值。
2 系统构成
该乘法器通过逐项移位相加来实现乘法。它从被乘数的zui低开始，若为1，则乘数左移后再与上一次的和相加；若为0，左移后与0相加，直到移到被乘数的zui高位。图1是该乘法器的系统组成框图。该控制模块的STAR输入有两个功能：*个功能是将16位移位寄存器清零和被乘数A[7…0]向8位移位寄存器加载；第二个功能为输入乘法使能信号。乘法时钟信号从CLK输入，当被乘数加载于8位移位寄存器后，它由低位到高位逐位移出，当QB=1时，选通模块打开，8位乘数B[8…0]被送入加法器，并与上一次锁存在16位锁存器中的高8位相加，其和在下一个时钟上升沿被锁存到锁存器内；当QB=0时，选通模块输出为全0。如此循环8个时钟脉冲后，由控制模块控制的乘法运算过程自动中止。该乘法器的核心元件是8位加法器，其运算速度取决于时钟频率。
3 加法器的实现
加法器的设计需要考虑资源利用率和进位速度这两个相互矛盾的问题，通常取两个问题的折衷。多位加法器的构成有并行进位和串行进位两方式，前者运算速度快，但需占用较多的硬件资源，而且随着位数的增加，相同位数的并行加法器和串行加法器的硬件资源占用差距快速增大。实践证明，4位二进制并行加法器和串行加法器占用的资源几乎相同，因此，由4位二进制并行加法器级联来构成多位加法器是较好的折衷选择。以下为由两个4位二进制并行加法器级联构成8位二进制加法器的VHDL程序：
LIBRARY IEEE；
USE IEEE.STD_LOGIC_1164.ALL；
USE IEEE.STD_LOGIC_UNSIGNED.ALL；
ENTITY ADDER8B IS
PORT （CIN：IN STD_LOGIC；
A ：IN STD_LOGIC_VECTOR（7 DOWNTO 0）；
B ：IN STD_LOGIC_VECTOR（7 DOWNTO 0）；
S ：OUT STD_LOGIC_VECTOR（7 DOWNTO 0）；
OUT ：OUT STD_LOGIC);
END ADDER8B;
ARCHITECTURE struc OF ADDER8B IS
COMPONENT ADDER4B
PORT (CIN4: IN STD_LOGIC;
A4 : IN STD_LOGIC_VECTOR(3 DOWNTO 0);
B4 ：IN STD_LOGIC_VECTOR(3 DOWNTO 0);
S4 : OUT ST_D_LOGIC_VECTOR(3 DOWN-TO 0);
COUT4 : OUT STD_LOGIC);
END COMPONENT;
SIGNAL CARRY_OUT : STD_LOGIC;
BEGIN
U1:ADDER4B
PORT MAP(CIN4=>CIN,A4=>A(3 DOWNTO 0),B4=>B(3 DOWNTO 0),S4=>S(3 DOWNTO 0),COUT4=>CARRY_OUT);
U2 ：ADDER4B
PORT MAP（CIN4=>CARRY_OUT,A4=>A(7 DOWNTO 4),B4=>B(7 DOWNTO 4),S4=>S(7 DOWNTO 4),COUT4=>COUT）;
END struc;
在上面的VHDL描述中，ADDER4B是一个4位二进制加法器，其VHDL描述是：
LIBRARY IEEE；
USE IEEE.STD_LOGIC_1164.ALL；
USE IEEE.STD_LOGIC_UNSIGNED.ALL；
ENTITY ADDER4B IS
PORT （CIN4 ：IN STD_LOGIC；
A4 ：IN STD_LOGIC_VECTOR（3 DOWNTO 0）；
B4：IN STD_LOGIC_VECTOR（3 DOWNTO 0）；
S4：OUT STD_LOGIC_VECTOR（3 DOWNTO 0）；
COUT4：OUT STD_LOGIC；
EAND ADDER4B；
ARCHITEC_TURE behav OF ADDER4B IS
SIGNAL SINT ：STD_LOGIC_VECTOR（4 DOWNTO 0）；
SIGNAL AA，BB：STD_LOGIC_VECTOR（4 DOWNTO 0）；
BEGIN
AA<=‘0’&A4；
BB<=‘0’&B4;
SINT<=AA+BB+CIN4;
S4<=SINT(3 DOWNTO 0);
COUT4<=SINT(4);
END behav；