Emerson unidrive sp User Manual page 226

Universal variable speed ac drive for induction and servo motors model sizes 6 to 9

Hide thumbs Also See for unidrive sp:

User manual (421 pages)

User manual (310 pages)

Technical note (6 pages)

100

101

102

103

104

105

106

107

108

109

110

111

112

113

114

115

116

117

118

119

120

121

122

123

124

125

126

127

128

129

130

131

132

133

134

135

136

137

138

139

140

141

142

143

144

145

146

147

148

149

150

151

152

153

154

155

156

157

158

159

160

161

162

163

164

165

166

167

168

169

170

171

172

173

174

175

176

177

178

179

180

181

182

183

184

185

186

187

188

189

190

191

192

193

194

195

196

197

198

199

200

201

202

203

204

205

206

207

208

209

210

211

212

213

214

215

216

217

218

219

220

221

222

223

224

225

226

227

228

229

230

231

232

233

234

235

236

237

238

239

240

241

242

243

244

245

246

247

248

249

250

251

252

253

254

255

256

257

258

259

260

261

262

263

264

265

266

267

268

page of 268

/ 268
Contents
Table of Contents
Bookmarks

Table of Contents

Safety

Mechanical

Product

Information

information

Installation

Demanded Speed

Acceleration

Actual Speed

Programmed

ramp rate

S ramp

acceleration

ramp

T/2

Since the ramp rate is defined in s/100Hz or s/1000rpm and the S ramp

parameter is defined in s

/100Hz or s

'curved' part of the S can be determined from:

T = S ramp rate of change / Ramp rate

Enabling S ramp increases the total ramp time by the period T since an

additional T/2 is added to each end of the ramp in producing the S.

11.21.4

Torque modes

4.08

Torque reference

±USER_CURRENT_MAX %

Parameter for main torque reference. The normal update rate for the

torque reference is 4ms. However if analog inputs 2 or 3 on the drive are

used as the source of the reference, the drive is in closed-loop vector or

servo mode and the analog inputs are in voltage mode with zero offset,

the sample time is reduced to 250μs.

4.11

Torque mode selector

Uni

0 to 1

0 to 4

Open loop

If this parameter is 0 normal frequency control is used. If this parameter

is set to 1 the current demand is connected to the current PI controller

giving closed loop torque/current demand as shown below. The current

error is passed through proportional and integral terms to give a

frequency reference which is limited to the range: -SPEED_FREQ_MAX

to +SPEED_FREQ_MAX.

Current

demand

Active

current

Closed loop vector and Servo

When this parameter is set to 1, 2 or 3 the ramps are not active while the

drive is in the run state. When the drive is taken out of the run state, but

not disabled, the appropriate stopping mode is used. It is recommended

that coast stopping or stopping without ramps are used. However, if

ramp stop mode is used the ramp output is pre-loaded with the actual

speed at the changeover point to avoid unwanted jumps in the speed

reference.

226

Electrical

Getting

Basic

Running the

Installation

Started

parameters

T/2

/1000rpm, the time T for the

0.00

Frequency

reference

P Pr 4.13

Pr 4.14

www.controltechniques.com

SMARTCARD

Optimization

motor

operation

0: Speed control mode

The torque demand is equal to the speed loop output.

1: Torque control

The torque demand is given by the sum of the torque reference and

the torque offset, if enabled. The speed is not limited in any way,

however, the drive will trip at the overspeed threshold if runaway

occurs.

2: Torque control with speed override

The output of the speed loop defines the torque demand, but is

limited between 0 and the resultant torque reference (Pr 4.08 and

Pr 4.09 (if enabled)). The effect is to produce an operating area as

shown below if the final speed demand and the resultant torque

reference are both positive. The speed controller will try and

accelerate the machine to the final speed demand level with a

torque demand defined by the resultant torque reference. However,

the speed cannot exceed the reference because the required torque

would be negative, and so it would be clamped to zero.

Depending on the sign of the final speed demand and the resultant

torque the four areas of operation shown below are possible.

+ final speed demand

+ resultant torque

+ final speed demand

-resultant torque

This mode of operation can be used where torque control is required, but

the maximum speed must be limited by the drive.

3: Coiler/uncoiler mode

Positive final speed demand:

A positive resultant torque will give torque control with a positive

speed limit defined by the final speed demand. A negative resultant

torque will give torque control with a negative speed limit of -5rpm.

Negative final speed demand:

A negative resultant torque will give torque control with a negative

speed limit defined by the final speed demand. A positive resultant

torque will give torque control with a positive speed limit of +5rpm.

Example of coiler operation:

This is an example of a coiler operating in the positive direction. The final

speed demand is set to a positive value just above the coiler reference

speed. If the resultant torque demand is positive the coiler operates with

a limited speed, so that if the material breaks the speed does not exceed

a level just above the reference. It is also possible to decelerate the

coiler with a negative resultant torque demand. The coiler will decelerate

down to -5rpm until a stop is applied. The operating area is shown in the

following diagram.

Technical

Onboard

Advanced

Diagnostics

PLC

parameters

Data

Current

4.08

4.09

Speed

Pr 3.01

- final speed demand

+ resultant torque

- final speed demand

- resultant torque

Unidrive SP Free Standing User Guide

Issue Number: 1

UL Listing

Information

(if enabled)

Table of Contents

Chapters

Table of Contents

Emerson unidrive sp User Manual page 226

Chapters

Related Manuals for Emerson unidrive sp

Related Products for Emerson unidrive sp

Table of Contents