博世力士乐变频器调参数

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变频器参数设置方法
变频器参数设置方法通常有以下几个步骤：
1. 确定需要控制的电机参数：包括电机功率、额定电流、额定电压等。

2. 设置电机控制模式：可以选择速度控制模式、扭矩控制模式等，根据具体需求进行选择。

3. 设置电机额定频率：根据电机的额定电压和额定频率，设置变频器的输出频率。

通常，额定频率为电机的额定转速除以60。

4. 设置变频器的输出电压：根据电机的额定电压，设置变频器输出电压。

5. 设置变频器的过载保护参数：根据电机的额定电流，设置变频器的过载保护参数，以保护电机不受过载损坏。

6. 调整变频器的PID参数：根据实际情况，调整变频器的PID参数以达到更好的控制效果。

7. 进行试运行和调试：在设置完成后，先进行试运行，观察电机的运行情况是否正常，如有异常可对参数进行调整。

需要注意的是，变频器的参数设置方法可能因品牌和型号而有所差异，因此，在进行参数设置之前，最好查阅相关的产品说明书或咨询厂家的技术支持。

变频器功能参数设置调试变频器在出厂时对功能参数都进行了初设定，但设定的功能参数不肯定都符合某项详细的使用要求。

因此，有些功能参数要依据详细要求重新设定。

这里要特殊指出的是，变频器的功能参数有几百条，重新设定的功能参数只是依据需要才进行改动，改动的只是变频器功能参数中的一小部分，大部分与某项详细应用无关的功能参数不用改动，保留出厂设定值。

如不加推断的不修改和乱修改功能参数，都会引起故障或不必要的麻烦。

变频器使用说明书中给出的功能参数，都是可以改动和重新设置的。

但在一般工程中，常常涉及到的功能参数有：操作方法、频率、最高频率、额定电压、加/减速时间、电子热过载继电器、转矩限止、电动机极数等。

(1)加减速时间的设置在生产机械的工作过程中，加速过程（或起动过程）属于从一种运行状态转换到另一种运行状态的过渡过程，在这段时间内，通常是不进行生产活动的。

因此，从提高劳动生产率的角度动身，加速时间应越短越好。

但加速时间过短，简单因“过电流”而跳闸。

所以，预置加速时间的基本原则，就是在不发生过电流的前提下，越短越好。

通常，可先将加速时间预置得长一些，观看拖动系统在起动过程中电流的大小，如起动电流较小，可渐渐缩短加速时间，直至起动电流接近上限值时为止。

影响加速时间的因素有负载的惯性大小、负载与变频器的容量是否匹配等。

有些负载对起动和制动时间并无要求，如风机和水泵，其加、减速时间可适当地预置得长一些。

与加速过程一样，在生产机械的工作过程中，减速过程（或停机过程）也属于从一种状态转换到另一种状态的非生产过程，从提高生产率的角度动身，减速时间也应越短越好。

但如上述，减速时间过短，简单“过电压”。

所以，预置减速时间的基本原则，就是在不发生过电压的前提下，越短越好。

通常，可先将减速时间预置得长一些，观看拖动系统在停机过程中直流电压的大小，如直流电压较小，可渐渐缩短减速时间，直至直流电压接近上限值时为止。

(2)转矩提升又叫转矩补偿。

博世力士乐变频器调参数
博世力士乐变频器参数设置如下：
:为默认参数*:为高级参数
基本运行参数（b参数）
代码名称说明
b-0 运行参数选择2：高级运行及应用参数
b-1 频率输入通道选择2：外部电压信号1
b-2 频率数字设定设定下限频率
b-3运行命令通道选择2:外部端子(键盘STOP有效) b-4 转向控制0：与设定方向一致
b-5 上限频率50Hz
b-6 负载电机额定频率50Hz
b-7 负载电机额定电压380V
b-8 加速时间30s～50s
b-9 减速时间30s～50s
b-10 加、减速方式0：直线
中级运行参数（L参数）
代码名称说明
L-0 V/F曲线类型选择0：恒转距曲线
L-17 停机方式0：减速
L-27 VI1输入下限电压0.8V
L-28 VI2输入上限电压实际手柄输入上限电压
L-47 输入端子1功能选择1:多段速控制端子1(X1) L-54 模拟输出(AM)设定0:输出频率/3:电机转速
L-55 频率输出(AO)设定1:电机电流
L-56 AM输出增益0.50～2.00
L-57 AO输出增益0.10～5.00
L-58 AO输出通道选择3:0～20mA/4:4～20mA
L-59 OC1输出设定0:变频器运转中
L-60 OC2输出设定23:电机反向运行中
L-61 继电器输出功能18:故障状态及过热过载限流运行中*H-14 多段数频率1 35Hz
(H-*):为高级参数。

前 言感谢您选用博世力士乐电子传动与控制（深圳）有限公司的变频调速器（以下简称变频器）！CVF - G3系列、CVF - P3系列变频器是自主开发、生产的高性能变频器，该产品采用高品质的元器件、优质材料，并融合高新微电脑控制技术制造而成。

本使用手册提供如下产品系列的操作指南：(1) CVF-G3系列通用型变频器(2) CVF-P3系列风机、水泵专用型变频器本手册阐述了用户安装配线、参数设定、故障诊断和故障排除、日常维护等相关事宜。

为确保能正确操作此系列变频器，发挥其优越性能，请在装机之前，详细阅读本使用手册，并请妥善保存，或将本手册交于该机器的使用者。

如对于本变频器的使用存在疑问或有特殊要求，请随时联络本公司的各地办事处或经销商，也可与本公司总部售后服务中心联系，我们将竭诚为您服务。

我们一直致力于产品的不断完善，故本系列变频器的相应资料（操作手册、宣传资料等）如有变动，恕不另行通知。

欢迎选用本公司其它系列变频器产品：CVF-ZS系列注塑机专用型变频器CVF-ZC系列注塑一体化柜机CVF-LS1系列拉丝机专用型变频器CVF-LY1系列络筒机/印花机专用型变频器CVF-S1 系列单相小功率变频器CVF-SMP系列简易型单相小-1-功率变频器CVF-MN1 系列迷你型单相小功率变频器CVF-V1 系列高性能矢量型变频器开箱时，请认真确认以下内容：1.产品是否有破损，零部件是否有损坏、脱落现象，主体是否有碰伤现象；2.本机铭牌所标注的额定值是否与您的订货要求一致；3.本公司在产品的制造及包装出厂方面，质量保证体系严格，但若发现有某种检验遗漏，请速与本公司或供应商联系，我们将在第一时间为您解决。

变频器型号说明：-2-目录1.注意事项．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．11.1 安全标识定义．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．11.2 安装注意事项．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．11.3 使用注意事项．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．21.4 报废注意事项．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．42.安装与配线．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．52.1 产品技术指标及规格．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．52.2 系列型号说明．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．72.3 安装环境要求．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．82.4 变频器的安装尺寸．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．82.5 操作面板尺寸．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．102.6 盖板的拆卸与安装．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．112.7 操作面板的拆卸与安装．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．112.8 安装方向与空间．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．122.9 变频器的配线．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．132.10 回路端子台的配线．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．212.11 JP跳线说明．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．282.12 接线说明．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．293.操作与运行 ．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．353.1 面板操作．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．353.2 名词术语说明．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．363.3 面板功能说明．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．393.4 键盘操作方法．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．403.5 变频器的运行．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．444.功能参数一览表 ．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．474.1 基本运行参数（b参数）．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．474.2 中级运行参数（L参数）．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．48- 3 -4.3 高级运行参数（H参数）．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．514.4 状态监控参数一览表．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．554.5 保护功能及对策．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．574.6 故障记录查询．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．585.功能详细说明 ．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．605.1 基本运行参数（b参数）．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．605.2 中级运行参数（L参数）．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．685.3 高级运行参数（H参数）．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．836.维护与保养 ．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．976.1 日常检查与保养．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．976.2 定期维护．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．986.3 易损部件的检查与更换．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．996.4 存放及保修．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．99 7．使用范例．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．1017.1 面板控制起、停, 面板电位器设置频率．．．．．．．．．．．．．．．．．．．．．1017.2 三线制控制模式．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．1027.3 外部控制方式、外部电压设定频率．．．．．．．．．．．．．．．．．．．．．．．．．1037.4 多段速运行、外部控制方式．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．1047.5 可编程多段速控制．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．1057.6 多台变频器的联动运行(群组控制) ．．．．．．．．．．．．．．．．．．．．．．．1067.7 用变频器构成闭环控制系统．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．1107.8 用上位机（PC）控制多台变频器．．．．．．．．．．．．．．．．．．．．．．．．．．．111 8．选件．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．1138.1 远控线缆和远控适配器．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．1138.2 供水附件．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．1138.3 制动组件．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．113- 4 -附录1：RS485通讯协议．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．115附录2：供水附件的应用．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．．126- 5 -- 6 -第一章 博世力士乐电子传动与控制（深圳）有限公司 注意事项为了确保您的人身、设备及财产安全，在使用变频器之前，请务必仔细阅读本章内容，并在以后的搬运、安装、运行、调试与检修过程中遵照执行。

11.2 Explanation of All Function GroupsBasic function group explanation (b group)[b00]=0: Digital panel RUN/STOP control, associated setting [b02], [b16], [b17][b02] decides frequency setting channel; [b16], [b17] decide Acc./Dec. time.When [b02]=0~9 and 11,12, the operation direction is determined bySF/SR-COM;SF-COM close: forward; SR-COM close: reverse.If the SF, SR close or open at the same time, the converter does not run evenpressing RUN.If the SF, SR close or open at the same time, the converter stops even withoutpressing STOP.When [b02]=10, the operation direction will be decided by the set voltage of theconverter, not by the SF/SR.[b00]=1: UP/Down increase/decrease control, associated setting [E37]Digital panel RUN disabled, digital panel STOP enabled.Operation mode is decided by the circuit given by [E37] .When “R UN” is enabled, close X1-COM, output frequency increases; close X2-COM, output frequency decreases.increase the frequency by “” and decrease the frequency by “ ”.Single press: add/subtract 0.01Hz every time; continuous press: first add/subtract0.01Hz every time. When the time span is over 2s, the changing rate is decidedby Acc/Dec time.If X1, X2 are defined with other functions, [b00] can not be set as 1.Host Computer Control RUN/STOP and Running Direction[b00]=1, giving the initial value of the frequency, also can set the frequency directly with this function code.[b00]=2/3, is the frequency setting source of the 0-phase speed.[b00]=2: External terminals (including multi-phase terminals) control, associated [E37] setting; P-group parameters; STOP enabled.RUN disabled, STOP enabled.The source of operation mode and command are decided by the given circuit from [E37]=0,1, 2.The multi-phase speed 0~7 is selected by the binary combination of terminals X3, X2, X1-COM. The multi-phase speed holding time isdecided by the continuous combination duration of X3, X2, X1-COM; the running direction is decided by the given circuit from [E37]; frequency Acc./Dec. time is decided by P-group parameters.Press the RUN or close SF-COM to start; press the STOP or close SR-COM to stop.For the phase that has no relation to programming, set the function code of the holding time as OFF; for the phase related to programming, set the function code of holding time and the P-group parameters like the frequency, the running direction, Acc./Dec. etc.RUN disabled, STOP enabledThe operation mode is decided by the given circuit from [E37].When X3-COM is closed, the frequency is set by the external signal; the action of [b02] =0~2 is the same as [b02]=5; other values of [b02] are set normally.When X3-COM is open, the frequency is set by the potentiometer on the panel.[b00]=4: External terminal; internal/externl frequency source is switched by X3; STOP enabled; associated setting, [b02] If X1, X2, X3 are defined with other functions, [b00] can not be set as 2; The default input of the occupied terminal X is 0.[b00]=5: RUN/STOP is controlled by the host computer; STOP enabled; associated settings, [H08], [H09], [H10], [H11].The host computer controls the RUN/STOP and the running direction; STOP enabled.[b00]=6:RUN/STOP is controlled by the host computer; STOP disabled. associated settings, [H08], [H09], [H10].The host computer controls the RUN/STOP and the running direction; STOP disabled.[b00]=3: Embedded PLC control; associated setting, P-group parametersInput current 4-20mA+10V Panel potentiometer control 0-5VDC Analog voltage control 0-10VDC· [b02]=10, input the -10V~+10V analog signal by terminal VRC, at the same time, input voltage determines the running direction. When the input signal is “+”, it represents forward; otherwise it represents rever se. [b02]=5, 6, 9,10, set jumper JP5 2-3.· A-, set jumper Jp2 as 1-2.When [b02]=11, the [E25]=4/5 disabled.In this mode, set [b40] properly, making sure the [b40] setting value and the corresponding Max.Given frequency of [b30] curve.· [b02]=12, the frequency setting is determined by the host computer. In this option, please set the function codes [H08], [H09], [H10] , [H11] properly.Note: See also in Chapter 14.1, the operation and setting diagram.Setting the Max. output frequency of the frequency converter. .The rated frequency of the motor is set based on the nameplate content.The rated voltage of the load motor is set based on the nameplate content.OFF: The user-defined V/F curve mode, at the same time, shows the hidden function code [b07]~[b13].It is the Min. frequency that motor allows. This function sets the Min. frequency of user-defined V/F curve.It is the Min. voltage that motor allows. It is a percentage of the base voltage. This function sets the Min.voltage of the user-defined V/F curve.The middle frequency 1 of the user-defined V/F curve.The corresponding voltage of the middle frequency 1 (Mf1) of the user-defined V/F curve, is a percentageThe middle frequency 2 of the user-defined V/F curve.The corresponding voltage of the middle frequency 2 (Mf2) of the user defined V/F curve.The corresponding voltage of the highest frequency (HF) of the user-defined V/F curve, range: 0~120%BV.· automatically the V/F output voltage at the set value even the voltage of the power supply which connects to the input of the frequency converter varies.It has to be mentioned that the output voltag e can not be hig her that the input voltag e of the frequency converter even the constant voltage control is on.When this parameter is set OFF, the constant voltage control function is disabled and the output voltage will be proportional to the input voltage.General V/F curve settings are as follows:(a) General applicationH-0~H-15 constant torque characteristicP-00~P-15 square rate decreased torqueParameter setting description of fan and pump typesH curve, P curve voltage(C) User-defined V/F curve[b06]=oFF, can be defined the following V/Fcurve by [b03]- [b05], [b07]~[b13].[b13] HV [b05] BV [b08] LLV[b07][b09][b04][b11][b03]According to the requirements of the load motor, the following common use V/F curves are available.BVMF1MF2MF2BVMV1LLVConstant torque curveFan, pump energy saving curve MF2BVLLV MV MF1MF2BVHV High startup torque curveVariable frequency motor with increased voltage, higher than the frequency requirement[b15] Acc./Dec. curve modeAcc timeDec timeAcc timeDec timeThe selection of b15 also decides the curve mode of JOG Acc./Dec.[b16] Acceleration timeWhen the programmable mode is disabled (b 3), it represents the output frequency increasing time from 0.00Hz to HF .When the programmable mode is enabled (b=3) and the operation is under multi-phase 0, it represents the output frequency increasing time from 0.00Hz to the frequency command [b01].[b17] Deceleration timeWhen the programmable mode is disabled (b 3), it represents the output frequency decreasing time from HF to 0.00Hz.When the programmable mode is enabled (b=3) and the operation is under multi-phase 0, it represents the output frequency decreasing time from the frequency command [b01] to 0.00Hz. (1) Programmable operation disabled ([b00]3)· This parameter is used to set the delay time between the deceleration, stop and the start of reversed acceleration when the motor rotating speed changes. The parameter should be set according to load inertia, and Acc./Dec. time.(2) Programmable operation enabled ([b00] =3)TimeOutput frequency· When the forward and reverse signals are input simultaneously, the motor will decelerate and stop. When “0.0s” is set, the reverse operation is forbidden and only the forward operation is allowed.Output frequencyReversedForward· Electronic thermal relay setting value (%)=(motor rated current /frequency converter rated current) ×100%. When single motor is connected to single converter, overload relay needs not to be connected externally, and set the parameter according to motor characteristic.· When driving several motors or motor rated current is lower than the set value Et, the motor is not protected actively. In that case, please equip each motor with thermal protection relay.· As the figure of overload protection reverse time-limit shows, for general series: 150% rated current for 1 minute, 110% rated current for 1 hour.· If it is not set as OFF, the range is “50~110%”.frequency and over excitation of the motor can also be avoided while it is running without load.In the real operation, the voltage increase percentage is decided by the frequency converter based on the present output frequency and the load current.[b19] should be increased step by step. Too big value of the parameter may cause over current ofthe motor or enable the Auto Current Limit function. If it is not set as “oFF”, the setting range is “1~10%”. · When “oFF” is set effective, the automatic torque increase function is disabled; when other values are set, the values are the percentag e of the increased voltag e at 0 output frequency, rated current. This parameter is to improve the torque characteristic when the motor is running at low frequency. With that function, the output voltag e of the frequency converter can be adjusted· UF is the Max. frequency which the frequency converter outputs during steady running.· LF is the Min. frequency which the frequency converters outputs during steady running.· When the input frequency command is lower than the set value of the lower limit frequency (LF), the frequency converter has two working modes:[b23]=0, the output frequency is decreased directly from the lower limit frequency to 0.00Hz; the hysteresis frequency width needs to be set in order to prevent frequency converter from the frequency RUN/STOP around the lower limit frequency.[b23]=1, the frequency converter is kept running at the lower limit frequency.General series[b26] defines the time constant of the first inertia to conduct the first inertia filter of the analoginput reference sig nal. The big g er the time constant, the more obvious the restraining effect, but the slower the response. [b26] is also the filter time constant of FB channel.Reference frequency signal is filtered and amplified, and then its relationship with the set frequency is determined by the Curve (defined by [b27]~[b30]), which is shown in the right hand figure.compensation, and decrease the slip so that the motor can run at the rated current and the speed is close to the synchronous speed. Consumer will set slip frequency compensation according to load. Customers can use the slip frequency compensation according to the load situation.Note: when using the slip frequency compensation, [H35]must be disabled, [H35]=0.00.Note: If the compensation is set too big, the motorspeed will exceed the synchronous speed. In this case: Upper limit frequency=output frequency + K ×slipfrequency [b31].K is associated with load current and is not bigger than 1.· The relationship between frequency source and frequency setting is shown in the next figure, when VRC,+I pulse or panel potentiometer are set as open-loop frequency setting channels.· Using analog signal (0~5V, 0~10V, 4~20mA, panel potentiometer 0~5V) and pulse frequency to set frequency, outputfrequency can be set freely by setting [b25] and [b27], [b 28],[b29], [b30].The motor has two stop modes: Deceleration stop and inertia slide stop.[b34]=0: Inertia stop disabled, deceleration stop active.[b34]=1~3: external terminals X1,X2 or X3-COM are closed to realize inertia slip stop with. When other stop orders are set, deceleration stop is active.[b34]=4: inertia slide stop.If the setting is 1~3, when the selected terminal and the COM terminal are closed during operation,the converter will be stopped in inertia stop mode immediately and F.r .on will be displayed at the same time as the external terminals are closed. Once the terminals and COM are open, the output accelerates again from 0.00H to the set frequency. If there is stop signal, but the selected terminal and the COM open, then the motor decelerates to stop. If X1, X2 or X3 have alreadybeen defined with other functions, then the [b34] does not show the corresponding parameter in order to avoid repeated definition ofterminals.[b32] This function could regulate starting torque characteristic with torque compensation, but if the setvalue is too big, over current may happen.[b33] Start up hold time is the running holding time with the start up frequency.If the running frequency is lower than start up frequency, the output frequency is the start up frequency.After the holding time of the start up frequency, the output frequency will be decreased to the running· [b35]=0: Cannot carry on the Jog operation.· [b35]=1~3: Selection terminals X1~X3 as the jog operation signal input terminals, close is enabled. When the jog operation signal and the operation signal are enabled at the same time, then the jog operation is effective.Jog operation is forbidden in the programmable mode.Jog operation acceleration time[b37] is time for frequency increase from 0.00Hz to HF. Jog operation deceleration time [b38] is time for frequency decrease from HF to 0.00Hz.When the Jog operation stops, if the jog operation frequency is higher than the set operation frequency, then decrease the frequency to the set frequency according to the Jog deceleration time.If the Jog frequency is lower than the operation frequency, then increase the frequency to the set frequency according to the normal acceleration time. Three common modes of Jog.· When [b02]=11, this functional code provides [b30] value corresponding to external input pulse frequency. (200.0kHz).· When [b02]=11, [E24]=0, [E25]=4 or 5 (PI control), this functional code provides the biggest engineering value corresponding to feedback pulse frequency.The jog operation at the operation frequency as 0.00HzAccelerate frequency increase speed by jog operationThe jog operation at frequency lower than the operation frequency· When [b00]=0, [b02]=0 or [b00]=1 or [b00]=2, [b02]=0, if [b42]=1, then the present set frequency will be saved in function code [b01] before the system power is off. After the power is on nextExtended function group description (E group )This function is used to prevent from load mechanic vibration (noise) and resonance etc; Three skip frequencies can be set in the range of 0.00Hz-HF;Set the range of skip frequency to 0.00Hz when the skip frequency function is not used;This function is inactive during acceleration and deceleration;The function is suitable for any frequency setting selected by [b02].· A 0~20mA DC ammeter or a 0~10V DC voltmeter can be connected between FM1 or FM2 and GND to monitor the inverter output frequency, output voltage or output current.· When 2-3 of JP3 is shorted, the output of FM2 is 0-10V, please connect the voltmeter or cymometer with full range of 10V and impedance of 10K .· When 1~2 of JP4 is shorted, the output of FM1 is 0~20mA, please connect the ammeter or frequency indicator with the full range of 20mA.[E04]=0: output frequency, when the output reaches HF, terminal FM1 outputs 20mA or 10V; [E04]=1: output voltage, when the output reaches AC 500V, terminal FM1 outputs 20mA or 10V;[E04]=2: output current, when the output reaches 2 times of rated current, terminal FM1 outputs 20mA or 10V;[E04]=3: PI feed-back signal [E05] adjusts the FM gain.· When 2~3 of JP3 is shorted, FM2 outputs 0~10v; when 1~2 of JP3 is shorted, FM2 outputs 0~20mA. The output and gain of FM2 are selected by [E06] and [E07] respectively.20mA· DO pulse frequency output range: 0 ~ [E10].[E09] =0 output frequency, when the output reaches HF, DO outputs [E10] kHz.[E09] =1 output voltage, when the output reaches 500V, DO outputs [E10] kHz.[E09] =2 output current, when the output reaches rated current, DO outputs ([E10]/2) kHz.When output frequency exceeds [E11], the digital output “Frequency level detection 1” (FDT1) is active till the output frequency is less than the frequency set by [E11]-[E12].When output frequency exceeds [E13], the digital output “Frequency level detection 2” (FDT2) isactive till the output frequency is less than the frequency set by [E13]-[E14].Frequency arrival detectionOutput frequencyFrequency leveldetection FDT1/2Delay frequencyTimeFrequency leveldetection FDT1/2TimearrivalE1612345678910111213141516171819202122232425RunFDT1FDT2FARReservedUnder voltageOver loadReserved0 speed(less than starting frequency)EMSLower voltageAuto current limit actionFaultProgramable program operationProgramable program operation overOne phase operation overOCOVForwardReverse0 speed (including stop)BrakingAccelerationDecelerationFan activeReservedOpen collectoroutputOUT1Open collectoroutputOUT2Relay RyoutputSelectionE17 E18SettingrangeFactory settingFactory settingFactory setting612Power supply[E16], [E17], [E18] setting description:0: RunWhen the frequency converter has output, OUT or Ry is active.1: FDT1When the output frequency is higher than frequency level [E11], OUT or Ry is active till the output frequency is less than the frequency set by [E11]-[E12].2: FDT2When the output frequency is higher than frequency level [E13], OUT or Ry is active till the output frequency is less than the frequency set by [E13]-[E14].3: FARWhen the output frequency is in the range of ±[E15], OUT or Ry is active.4: Reserved5: Under voltageWhen the frequency converter detects the input voltage is too low, OUT or Ry is active.6: Over load (OL)When the frequency converter detects overload, OUT or Ry is active.7: Reserved8: Output frequency 0 speed (less than starting frequency)When the output frequency of the frequency converter is lower than the operation frequency [b32], OUT or Ry is active.9: EMSWhen the terminal EMS is closed and [E32]=0, [E33]=1, OUT or Ry is active.10: Lower voltage (BUS voltage is lower than 90% of rated voltage)When the frequency converter detects the DC bus voltag e is lower than 90% of the rated value, OUT or Ry is active.11: Auto current limit function is active.When the auto current limit function is active, OUT or Ry is active.12: FaultWhen the frequency converter detects fault, OUT or Ry is active.13: Programable program in operation ([b00]=3)When the programable program of the frequency converter is in auto operation, OUT or Ry is active. 14: Programable program operation ([b00]=3) is completed.When the programable program auto operation of the frequency converter ([b00]=3) is completed, OUT or Ry is active.15: One phase of the programable program operation ([b00]=3) is completed.When the programable ([b00]=3) is in auto operation, OUT or Ry active time is 0.5 secretary. For each phase.16: Over currentWhen the frequency converter is under over current protection at the steady state stall or the acceleration stall, OUT or Ry is active; associated parameters, [E19] and [E20].17: Over voltage stallWhen the frequency converter is under over-voltage stall protection, OUT or Ry is active; associated parameter, [H25].18: ForwardWhen the frequency converter operates forward, OUT or Ry is active.19: ReverseWhen the frequency converter operates reverse, OUT or Ry is active.20: 0 speed (including stop)21: BrakingWhen the output frequency is less than the starting frequency setting [b32] and stops, OUT or Ry is active.22: AccelerationWhen the output frequency of the frequency converter is in acceleration, OUT or Ry is active.23: DecelerationWhen inverter output frequency is in deceleration, OUT or Ry action24: Fan actionWhen the inverter's fan is in work, OUT or Ry actionThe stall OC prevention level during acceleration [E20] can be set between 50~200% of the rated current of the frequency converter. When oFF is set, this function is inactive.Shown as the figure below, the frequency stops increasing once the output current is higher than the stall OC level [E20] during acceleration; the frequency will continue increasing if the output current decreases, in this way, the stall OC is prevented. As a result, this makes the actual Acc. time longer than the set value.Note: The disabled, [H33]=OFF. If the non-trip control [H33]=ON, then set [E19]=OFF , [E20]=OFF.Output frequencyOutput currentShown as the figure below, when running under the set frequency , once the current is higher than the stall OC level, the frequency converter will decrease the output frequency automatically to control the output current below the stall OC level.The stall OC prevention level [E19] can be set between 50~200% of the rated current of the frequency converter. If oFF is set, this function is inactive· The first function of display coefficients A and B is to transform the output frequency of thefrequency converter to the corresponding value of physical variable in engineering application, which will be shown on the digital panel.In the d group of the digital panel, “oUtF”=output frequency *A+B “SEtF”= set frequency *A+BIf [E22], and [E23] are as default, “oUtF” and “SEtF” show the actual output frequency and set frequency respectively.The second function of coefficient A and coefficient B is to display the given and the feedback variables when PI function embedded in the frequency converter is selected to control the motor with close-loop.Coefficient A [E22]: Corresponding value of physical variable in engineering application to the Max. analog given or feedback variable (e.g.:5V).Coefficient B [E23]: Min. analog giving or feedback (e.g.: 0V) corresponding to project physical quantity· The PI function embedded in the frequency converter detects the sensor feedback of the control object, and compare it with the given value. If difference exists, it will be reduced to or to be 0 by the PI adjustment function. This function applies to flow, pressure, temperature, rotatingl speed controls, etc.· PI mode selection, [E24]=0: PI is not selected; 1: Forward; 2: ReverseThis function can select the forward or the revere action of the PI adjustment output, therefore the motor rotating speed can be increased or decreased according to the PI adjustment output. can cause .[E25]=5· Setting range of proportional gain [E26]: 0.00~99.99 timesThe bigger the proportional gain, the faster the response, the easier oscillation may occur.Setting range of integral time constant [E27]: 0.10~60.0s.The bigger the integral time constant, the slower the response; and the less capability to control the external disturbance, but the better the stability.The smaller the integral time constant, the faster the response, the smaller the oscillation.Only using proportional adjustment, deviation can not be eliminated. PI control is used toremove the steady state deviation in the close loop system. If the integral time constant is too big, the response to the fast changing deviation will be slow. The P adjustment can be used alone for the load system with internal component.· Simplified adjustment method of PI parameters:(1) [E26] (P)- increase value in the case of no oscillation.(2) [E27] (I)- reduce value in the case of no oscillation.[E25]=0, 1[E25]=2, 3[E25]=4[E25]=5· [E37]=2, the terminal X selected by [E30] combined with the input by the SF or SR, the self-holding is effective.[E30]=0: “Self-holding selection” is disabled.[E32]=0: Inertia sliding stop is also called free wheel stop. Alarm output selection is allowed.[E33]=0: is the non alarm state. In the valid duration of EMS input, the band brake and other machinery may be used in coordination. The display of “EMS” will disappear after awhile.[E33]=1: is the alarm state, the stop command when external abnormality exists. “EMS” will be displayed all the time till fault reset or STOP reset and then the frequency is allowed tobe operated again. The alarm signal can be output by OUT/Ry when setting [E16]=9,[E17]=9, [E18]=9.[E32]=1: Decelerates to stop according to the present set deceleration time without “EMS”displayed. The alarm state is not allowed to be set, which is invalid even[E32] =1.The low voltage protection is a kind of fault prevention measure when the voltage of the power supply is lower than 10% of the rated voltage. The motor will work based on the different setting of [ E34 ].The under voltage protection is when the voltage of the power supply is lower than 20% of the rated voltage, the frequency converter will block the output immediately and the motor will do the free wheel stop with P.OFF displayed.If [ E35 ] =1, the alarm state will be displayed till the voltage of the power supply increases up to 90% of the rated voltage, then the alarm state will be reset.The alarm signal can be output by OUT1, OUT2, when setting [E16]=5, [E17]=5, [E18]=5.[E37]=1,Operation on/stop, reverse/forward mode SF-COM close: operation SF-COM open: stop SR-COM close: reverse SR-COM open: forward[E 37]=2, With auto-protection function to the button operation [E30] selects one of X1, X2, X3 as the stop terminal SF-COM close: forwardSR-COM close: reverse X1~X3-COM open: stopWhen the frequency converter is under the forward (reverse) operation, press the reverse[E37]=1SRCOMSFforward/stopreverse action/stop[E37]=0, Forward/stop, reverse/stop modeSF-COM close: forward SR-COM close: reverse SF, SR close or open at the same time: stopWhen the operation is controlled by the digital panel ([b00]=0/3) and without stop signal, if[E36]=1, the frequency converter will start automatically without pressing RUN after the power is on; if [E36]=0, press RUN to start the frequency converter.When other operation commands are selected, if [E36]=1, the frequency converter will start immediately when there is an operation command (e.g., SF-COM close) after the power is on; if [E36]=0, even there is an operation command when power is on, the frequency converter will not start. The operation command has to be cancelled and set again (SF-COM “OPEN”and “Close” again).· [E39] is the fault retry waiting time of the frequency converter after the fault appears and [E38] is set effective ([E38] is not 0).· [E40] is the Max. allowed retry times of the frequency converter after power is on.[E45] setting the upper coefficient for close loopPI adjustment[E46] setting the lower coefficient for close loop PI adjust.In the PI adjustment process, shown as the chart: when the feedback>=Feedback upper limit (t1 point), it exits PI, reduces the output frequency according to Dec. time to the lower limit ([b23]=1) or 0.00Hz ([b23]=0);when feedback<lower (t2 point), it will be in PI process again.Feedback upper value=[E22][E45]/100Feedback lower value=[E22][E46]/100/。

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变频器设置参数怎么调？答：想一想当年学习变频器都是认真拜师学艺的，不像现在在网络平台上要求别人回答，而现在今日头条少得可怜的几十角钱，来买他人的技术，真是无语。

冰冻三尺非一日之寒，对于初次接触变频器的入门者来说，使用面板调节非常得心应手，但它都是出厂设置好了的，如果是要使用外部接线端子，那么就要重新设置变频器与驳接的电动机的一些参数了。

一、变频器可设置的参数♣变频器参数的设置非常重要。

变频调速系统是否能满足生产工艺要求的需要，按期望的要求运行，决定于参数的正确设置。

变频器参数设置不当会造成启动、制动的失败，误跳闸，严重时会造成变频器内部电子元器件的损坏。

变频器的参数值很多，少则五六十个，多则百余个。

对于初次接触变频器者，一定要有变频器的使用说明书，没有使用说明书，犹如盲人摸象，一筹莫展。

但变频器大多数参数不需要用户设置,按照出厂时设置值使用即可。

需要重新设置的参数主要有:基本频率、最高频率、上限频率、下限频率、U / f线,启动频率、加速度时间、减速时间、制动时间(及方式)。

此外还包括外部端子操作、模拟量操作等。

电动机的基本信息如额定电压、额定电流、额定容量、极对数、加减速时间等准确录入，是保证变频器稳定运行的前提。

例如，电动机极数设定不准确，则变频器显示转速不准确，将影响操作人员的操作。

保护参数设定是电动机发生故障时报警还是跳闸，为变频器的安全运行提供了故障。

保护参数设定包括热电子保护、过电流保护、载波保护过电压保护和失速保护等设定。

♠如果变频器保护定值设定过小，将会造成变频器频繁误动作影响电动机运行。

另外，如果加速度时间、减速度时间设定不当，则会造成变频器在加、减速时发生过电压保护动作。

变频器参数初步设定后，还要根据系统实际运行情况，对不合适的部分参数进行调整。

变频器的参数设定均有一定的选择范围，设定前应详细阅读产品说明书，掌握变频器的技术性能和设定方法。

不同品牌的变频器，其参数设定方法是不同的，要看它们的功能及代码、参数名称、设置范围和出厂值。