SyncoTM 700 模块化控制器介绍 Target group: Sales staff, installers Course target: The course participant will: know the components of Synco 700 RMU know the key features of Synco 700 RMU know the fields of use in HVAC know the types of peripheral devices that can be connected
SyncoTM 700 RMU 模块化控制器 随时为您提供最佳的服务 SyncoTM 700 通用控制器可以进行控制、调节、监视和通信 .
通用型控制器 From straightforward to complex ventilation and air conditioning plants. Also suited for refrigeration plant or other control applications. The RMU... Offers a level of functionality never provided before by a standard controller. Convince yourself and take a closer look at the Application Catalog! Nevertheless: A standard controller is not able to do everything, but what it does is done perfectly!
模块化和极具灵活性的设计 模块设计 操作面板 附带输入输出的扩展模块 灵活应用 广泛应用于通风、空调和制冷 配置可以较为简单
节省安装费用 SyncoTM 700 SyncoTM 200 及 700 安装SyncoTM 意味着节省费用 笼型端子: -连线速度快6倍 - 质量更好 方便的模块连接 安装SyncoTM 意味着节省费用
应用程序目录 超过30个具有完整文档的 标准应用 设备系统图 功能描述 接线示意图 设备清单(包括传感器和执行设备) 调试参数设定 HVAC控制专家为您提供的完整解决方案
SyncoTM 700 操作明确 SyncoTM 助你随心所欲的控制你的设备 最新信息只需 轻轻一按 按下、旋转 简单不过如此! 6 12 18 24 定时自动开关 按下、旋转 简单不过如此! SyncoTM 助你随心所欲的控制你的设备
工程调试 整个功能可以简单的通过局部操作来激活 控制器可以方便的和现场需求相匹配 预编程系统经过测试,因此大大简化了调试 Commissioning Basic configuration... Auxiliary functions... Settings... Communication 整个功能可以简单的通过局部操作来激活 控制器可以方便的和现场需求相匹配 预编程系统经过测试,因此大大简化了调试
SyncoTM 700 RMU – 组件 模块通用控制器 RMU … RMU710B RMU720B RMU730B 扩展模块 RMZ7... RMZ785 RMZ787 RMZ788 操作单元 嵌入式 RMZ790 分离式 RMZ791 (包括 3 米的电缆)
SyncoTM 700 RMU..B – 控制器的主要功能 3种不同的通用控制器 RMU710B RMU720B RMU730B 6 UI 8 UI 8 UI 2 AO 3 AO 4 AO UI: Universal Input (analog active, analog passive, or digital) AO: Analog Output (DC 0…10 V) DO: Digital Output (relay) PID: PID controller 2 DO 4 DO 6 DO 1 PID 2 PID 3 PID
Universal Input module 扩展模块的功能 Universal Input module RMZ785 Universal I/O module RMZ787 Universal I/O module RMZ788 8 DI 4 UI 4 UI 2 AO 2 DO 4 DO UI: Universal Input (analog active, analog passive, or digital) DI: Digital Input (potential-free contact) AO: Analog Output (DC 0…10 V) DO: Digital Output (relay)
SyncoTM 700 RMU – Module Combinations 1 controller 最多四个扩展模块 RMU710B RMU720B RMU730B RMZ785 1x RMZ787 2x RMZ788 UI AO DO 4 2 8 UI: universal input (analog active, analog passive, or digital) AO: analog output (DC 0…10 V) DO: digital output (relay)
示例: 模块化结构及其灵活性 单速风机, 带供热和冷却盘管的温度控制. RMU710 1 1 + T T T Commissioning Basic configuration... Auxiliary functions... Settings... Communication... RMU710
示例: 模块化结构及其灵活性 …或者带压力控制的变频风机 ~ ~ RMU710 RMZ788 + dP ~ f1 f2 f1 f2 T M T + T dP ~ Supply air fan Step 1: N.Q1 Step 2: ---- Speed: A8.Y1 Pressure sensor: A8.X1 Extension are required only if the control section does not have a sufficient number of inputs or outputs. An extension is required in this because there would too few analog outputs. RMU710 RMZ788
示例: 模块化结构及其灵活性 ... 预热盘管中的双泵控制 ~ ~ RMU710 RMZ788 RMZ786 + dP ~ f1 f2 f1 f2 T + T T dP ~ Basic configuration Plant type: A Position 1: RMZ788 Position 2: RMZ786 Position 3: ---- M M RMZ786 is used exclusively for twins pumps. RMU710 RMZ788 RMZ786
示例: 模块化结构及其灵活性 ~ ~ ... 以及用于故障信息或者附加传感器的 输入/输出,例如 RMU710 RMZ788 RMZ786 dP ~ f1 f2 f1 f2 T + T T dP ~ Faults Fault input 1: A7.X1 Position 1: A7.X2 Position 2: ---- Position 3: ---- Ext.Fault 故障继电 Ext.Temp. T M M RMZ787 is used only when the number of available inputs are not sufficient. RMU710 RMZ788 RMZ786 RMZ787
SyncoTM 700 灵活的模块化特性
标准通信 Konnex (LTE-模式) 只有一些设定值和数据可以自动交换: 能量需求 (供热、制冷) 时间和假日程序 时间同步 故障等等 KNX LTE-mode: New communication standard used by Synco and Synco RXB. Commissioning communication of these devices is very straightforward (Synco training will tell you all). A tool is not required for commissioning. Everything can be done on the controller. 暖通空调设备的优化协调: 提高舒适度 降低运行费用
SyncoTM 700通用控制器 使用功能块 Target group: Service staff, engineering staff, trainers (PMs) Course objective: The course participant will: know all basic types (A, CU, U) and their main applications know all option modules (RMZ ..6,7,8) and their main applications know the main functions of the Configuration Diagram be able to make complete configurations right from the start (may be country-specific) be able to set plants according to specific requirements (e.g. redefining inputs, tuning controllers, balancing sensors, adjusting damper actuator ranges, etc.)
基本类型( Basic Types )概览 A = 通风控制器 (房间/送风温度) C = 一次冷冻水控制器 (根据负荷需求信号控制) Note: Empty plant types determine the controller‘s basic configuration and the choices provided. Make sure that this is correctly set because this will have an impact on whether the controller is equipped with a time switch program, or whether it can communicate with a room unit, or whether a fan is provided,. etc. Empty plant types are intended for free configuration and for creating plant form scratch. Basic type A for ventilation / air conditioning: Control loop 1 is designed for room temperature control, room / supply air temperature control, supply air temperature control Plant controlled by time switch Control loop 1 is for temperature control Summer / winter compensation according to the outside temperature Fan block, heat recovery, mixed aid dampers and indoor air quality control Alarming includes inputs for filter monitoring, fire and smoke Basic type C for demand-dependent cold water applications:: Control loop 1 is designed for cold water flow temperature control, cold / water temperature control (2-pipe systems) Plant controlled by demand signal (on Konnex) Universal setpoint shift NO fan block, heat recovery, mixed air dampers, indoor air quality control NO filter monitoring, fire and smoke inputs Basic type U for universal controller: Control loop 1 is designed for an universal control loop, plant controlled by time switch Control loop 1 has no unit limitations U = 通用控制器 (带有时间程序控制)
N.X1 输入功能块 物理输入端子 N = 控制器 X1 = 端子 1 设定: - 类型 (Ni1000, 2x Ni1000, Pt1000, T1, DC 0..10V) - 范围 (-50°C..250 °C) - 误差调整 (-3K..+3K) 输入 - TR * - OT * - °C - Frost * - Remote-wx * - Remote rel * - Digital - ... * 自动设定内部逻辑连接 Note: The function blocks shown here are not complete. Only the most important ones are explained. The function blocks for the 3 basic types (A, Cu and U) are partly different. Only one example of each is explained. The settings of the relevant blocks are not complete either but shall only give an overview and describe the major settings. If required, the respective block can be explained on the engineering case, including its setting choices. For more detailed information, refer to the relevant technical documentation. 内部连接端子
功能块:顺序控制器 主控变量 设定 > 控制参数 > > 设定点补偿 > 串级控制 > 限制控制 设定 > 控制参数 > > 设定点补偿 > 串级控制 > 限制控制 Gen.limit. Seq.limit. ZU Controller 1 控制器 1 > 输入 > - 主控变量 - 送风温度 控制器 1> 输出_//... Note: The function blocks shown here are not complete. Only the most important ones are explained. The function blocks for the 3 basic types (A, Cu and U) are partly different. Only one example of each is explained. The settings of the relevant blocks are not complete either but shall only give an overview and describe the major settings. If required, the respective block can be explained on the engineering case, including its setting choices. For more detailed information, refer to the relevant technical documentation. Hinweis: Sequenzregler 2 sieht anders aus! [Seq.1] 泵 用于水泵控制 [Seq.1] 负荷 0..100% 输出 用于调节输出,热回收, 步进组合块,混风风门组合块
功能块:调节输出 连接到 [Seq x] 的负荷端输出 (最大可以连接2个负荷端输出作为输入 最终输出结果= 最大输入) 设定 > 输出 > 调节输出 最大限位 Mod. Output 最小限位 反转输出 A Note: The function blocks shown here are not complete. Only the most important ones are explained. The function blocks for the 3 basic types (A, Cu and U) are partly different. Only one example of each is explained. The settings of the relevant blocks are not complete either but shall only give an overview and describe the major settings. If required, the respective block can be explained on the engineering case, including its setting choices. For more detailed information, refer to the relevant technical documentation. DC 0..10 V 模拟量输出端子
功能块:步进组合块 连接到 [Seq x] 的负荷端输出 (最大可以连接2个负荷端输出作为输入 最终输出结果= 最大输入) 设定 > 输出 > 步进组合块 Release external Var.step switch.1 [级 xy] ON [级 xy] OFF Note: The function blocks shown here are not complete. Only the most important ones are explained. The function blocks for the 3 basic types (A, Cu and U) are partly different. Only one example of each is explained. The settings of the relevant blocks are not complete either but shall only give an overview and describe the major settings. If required, the respective block can be explained on the engineering case, including its setting choices. For more detailed information, refer to the relevant technical documentation. 锁定时间(最小停止时间) 延长运行时间 继电器分级输出 xy (可设定) Y输出设置与模拟量输出相同 DC 0..10 V模拟量输出端子
功能块:风机组合块 过载信号 状态反馈信号 启动信号端子 风压传感器 停止信号端子 设定 > 输出 > > 送风风机 - 启动延时 - 风压设定点; 比例带XP, 积分时间Tn - 最高速度 p Start Stop v Supply Speed Note: The function blocks shown here are not complete. Only the most important ones are explained. The function blocks for the 3 basic types (A, Cu and U) are partly different. Only one example of each is explained. The settings of the relevant blocks are not complete either but shall only give an overview and describe the major settings. If required, the respective block can be explained on the engineering case, including its setting choices. For more detailed information, refer to the relevant technical documentation. DC 0..10 V变频器控制信号输出端子 继电器输出, simultaneously 1, 2-speed
功能块:水泵组合块 Start Stop 流量开关反馈信号 过载信号 连接到[Seq.x]的 启动信号端子 水泵输出端子 停止信号端子 设定 > 输出 > > 水泵 - 停止延时 Start Stop Pump On Note: The function blocks shown here are not complete. Only the most important ones are explained. The function blocks for the 3 basic types (A, Cu and U) are partly different. Only one example of each is explained. The settings of the relevant blocks are not complete either but shall only give an overview and describe the major settings. If required, the respective block can be explained on the engineering case, including its setting choices. For more detailed information, refer to the relevant technical documentation. 根据运行模式(舒适模式和预舒适模式)控制水泵的启停 继电器输出
功能块:运行模式模块 Operating mode 根据外部的数字量输入点选择运行模式 根据数字量输入点激活假日模式 根据数字量输入点触发定时功能 根据数字量输入点激活特定日模式 Operating mode Note: The function blocks shown here are not complete. Only the most important ones are explained. The function blocks for the 3 basic types (A, Cu and U) are partly different. Only one example of each is explained. The settings of the relevant blocks are not complete either but shall only give an overview and describe the major settings. If required, the respective block can be explained on the engineering case, including its setting choices. For more detailed information, refer to the relevant technical documentation.
扩展模块 RMZ786, RMZ787, RMZ788 双泵模块 通用扩展模块提供额外的输入输出点 RMZ786 RMZ787 RMZ788 A6.Q1 A6.Q2 A6.Q3 A6.Q4 A6.D1 A6.D2 A6.D3 A6.D4 双泵模块 RMZ787 A7.Q1 A7.Q2 A7.X2 A7.Q3 A7.Q5 A7.X3 A7.X4 A7.X1 RMZ788 A8.Y1 A8.Y2 A8.Q5 A8.Q1 A8.X1 A8.X2 A8.X3 A8.X4 通用扩展模块提供额外的输入输出点 Note: RMZ786: When using the twin pump module, pump 1 and pump 2 are automatically assigned to twin pump 1 and 2. RMZ787 and RMZ788: These modules are used when additional inputs and / or outputs are required.
通过演示箱进行基于基本类型A(Basic Type A)的练习 使用组态配置图完成空调机组的编程工作 目标: 完成设备组态工作 定义相关参数(设定) 试运行、控制调试 步骤: 定义设备功能(草图) 完成组态配置图 使用菜单完成对控制器的编程 Note: This exercise is a kind of workshop and can be made in accordance with customer- / country-specific requirements. This requires the trainer to have thorough knowledge of applications in order to be able to respond to questions that may be raised. Here, only one example is given. Prerequisite for this example is an RMU730 with basic type A (on the engineering case). A sufficient number of blank sheets of the function block diagram should be provided.
1. 明确设备功能 空气处理机: 分配输入端子: X1: 送风温度 X2: 房间温度 X3: 防冻开关 X4: 室外温度 X5: “舒适模式”选择端子 Y1: 热盘管输出信号 Y2: 冷盘管输出信号 Q1: 风机(送风/回风) Q3: 热盘管循环泵 Here, only one possible example of such an exercise if given, including an approach for the solution. The example is in compliance with the demo case.
2. 功能块实现过程的组态配置图 Basic Type A TR Frost OT Dig x x The example shown here uses Configuration Diagram RMU710 basic type A. Ventilation controller (controller 1 is the room temperature controller, room / supply air temperature cascade controller or supply air temperature controller). Procedure: Define the input identifiers. Define the aggregates, assign the inputs and outputs. Assign the aggregates and inputs to the controller. Note for the trainer: Here, the relevant Configuration Diagram in the national language must be inserted as a picture.
3 实现控制器设定 Controller, 第一部分 Path: ... > Commissioning > Basic configuration Setting Remarks Function Parameter A Basic type A ventilation controller Plant type Path: ... > Commissioning > Basic configuration > Aggregates > Pumps > Pump 1 N.Q3 Pump control air heating coil Output Path: ... > Commissioning > Basic configuration > Aggregates > Supply air fan N.Q1 1-step fan Step 1 Path: ... > Commissioning > Basic configuration > Input identifier °C Supply air sensor N.X1 N.X2 N.X3 N.X4 TR Frost TA Room temperature sensor Frost protection thermostat Outside temperature N.X5 Digital Comfort function Path: ... > Commissioning > Basic configuration > Aggregates > Modulating outputs N.Y1 Valve control air heating coil Output A N.Y2 Valve control air cooling coil Output B Possible approach for the example shown here.
3 实现控制器设定 Controller, 第二部分 Path : ... > Commissioning > Extra configuration > Operating mode Setting Remarks Function Parameter N.X5 Connection of op’ mode input Room op’ mode input1 Path : ... > Commissioning > Extra configuration > Heat demand Sequence 1 Heat demand parallel to contr’ 1 Sequence1 Controller 1 For communication Path: ... > Commissioning > Extra configuration > Refrigeration demand Sequence 4 Refr’ demand parallel to contr’ 1 Sequence 4 Path: ... > Commissioning > Extra configuration > Controller 1 > Inputs N.X1 Connect supply air temp. Supply air temp. Path: ... > Commissioning > Extra configuration > Controller 1 > Outputs \\\_ Modulating output A 1st heating seq.: control valve of heating battery [Seq 1] Load Pump 1 1st heating seq.: Pump 1 ON [Sequ. 2] Pump Path : ... > Commissioning > Extra configuration > Controller 1 > Outputs _// Modulating output B 1st cooling seq.: control valve of cooling battery [Seq. 4] Last Possible approach for the example shown here.