6. Appendices

# Bit

R/W

NV

Description

202

R/W

NV

Minor alarm delay for circuit 25

203

R/W

NV

Minor alarm delay for circuit 26

204

R/W

NV

Minor alarm delay for circuit 27

205

R/W

NV

Minor alarm delay for circuit 28

206

R/W

NV

Minor alarm delay for circuit 29

207

R/W

NV

Minor alarm delay for circuit 30

208

R/W

NV

Minor alarm delay for circuit 31

209

R/W

NV

Minor alarm delay for circuit 32

210

R/W

NV

Minor alarm delay for circuit 33

211

R/W

NV

Minor alarm delay for circuit 34

212

R/W

NV

Minor alarm delay for circuit 35

213

R/W

NV

Minor alarm delay for circuit 36

214

R/W

NV

Minor alarm delay for circuit 37

215

R/W

NV

Minor alarm delay for circuit 38

216

R/W

NV

Minor alarm delay for circuit 39

217

R/W

NV

Minor alarm delay for circuit 40

218

R/W

NV

Minor alarm delay for circuit 41

219

R/W

NV

Minor alarm delay for circuit 42

220

R/W

NV

Major alarm delay for circuit 01

221

R/W

NV

Major alarm delay for circuit 02

222

R/W

NV

Major alarm delay for circuit 03

223

R/W

NV

Major alarm delay for circuit 04

224

R/W

NV

Major alarm delay for circuit 05

225

R/W

NV

Major alarm delay for circuit 06

226

R/W

NV

Major alarm delay for circuit 07

227

R/W

NV

Major alarm delay for circuit 08

228

R/W

NV

Major alarm delay for circuit 09

229

R/W

NV

Major alarm delay for circuit 10

230

R/W

NV

Major alarm delay for circuit 11

231

R/W

NV

Major alarm delay for circuit 12

232

R/W

NV

Major alarm delay for circuit 13

233

R/W

NV

Major alarm delay for circuit 14

234

R/W

NV

Major alarm delay for circuit 15

235

R/W

NV

Major alarm delay for circuit 16

236

R/W

NV

Major alarm delay for circuit 17

237

R/W

NV

Major alarm delay for circuit 18

238

R/W

NV

Major alarm delay for circuit 19

239

R/W

NV

Major alarm delay for circuit 20

240

R/W

NV

Major alarm delay for circuit 21

241

R/W

NV

Major alarm delay for circuit 22

242

R/W

NV

Major alarm delay for circuit 23

243

R/W

NV

Major alarm delay for circuit 24

244

R/W

NV

Major alarm delay for circuit 25

245

R/W

NV

Major alarm delay for circuit 26

246

R/W

NV

Major alarm delay for circuit 27

247

R/W

NV

Major alarm delay for circuit 28

248

R/W

NV

Major alarm delay for circuit 29

249

R/W

NV

Major alarm delay for circuit 30

250

R/W

NV

Major alarm delay for circuit 31

251

R/W

NV

Major alarm delay for circuit 32

252

R/W

NV

Major alarm delay for circuit 33

253

R/W

NV

Major alarm delay for circuit 34

254

R/W

NV

Major alarm delay for circuit 35

255

R/W

NV

Major alarm delay for circuit 36

256

R/W

NV

Major alarm delay for circuit 37

257

R/W

NV

Major alarm delay for circuit 38

258

R/W

NV

Major alarm delay for circuit 39

259

R/W

NV

Major alarm delay for circuit 40

260

R/W

NV

Major alarm delay for circuit 41

261

R/W

NV

Major alarm delay for circuit 42

262 to 267

 

 

Reserved for MGE UPS SYSTEMS

Major alarm time delay for each output circuit.

This delay is expressed in seconds (from 0 to 65535 seconds).

The factory setting is 10 seconds.

Page 28 - 34020201EN/AB

Page 28
Image 28
MGE UPS Systems 250A user manual 28 34020201EN/AB

250A specifications

MGE UPS Systems has garnered a reputation for delivering high-quality power protection solutions, and the 250A model stands out as an excellent choice for businesses seeking reliable uninterruptible power supply (UPS) systems. This particular model is designed to handle critical loads while ensuring continuous power availability and safeguarding equipment against power disturbances.

One of the main features of the MGE UPS Systems 250A is its robust power capacity. It can efficiently supply power to critical devices, making it suitable for a range of applications including data centers, telecommunication networks, and industrial environments. The 250A offers a highly scalable solution, allowing businesses to expand their power needs as they grow.

In terms of technology, the MGE UPS Systems 250A utilizes advanced double-conversion technology, which converts incoming AC power to DC and then back to AC. This process ensures that the connected equipment receives a consistent and clean sine wave output, free from fluctuations and disturbances. The UPS is equipped with high-efficiency operation modes, including Eco-mode, which help reduce energy consumption and operational costs while maintaining optimal performance.

Another notable characteristic of the 250A is its versatility in connectivity and integration. It features a comprehensive range of communication ports, enabling seamless integration with existing infrastructures. The UPS can be monitored and managed remotely, allowing for real-time insights into the power status and performance metrics. This level of monitoring is crucial for ensuring optimal operation and for preemptively addressing potential issues.

Moreover, MGE UPS Systems has placed a strong emphasis on user-friendly design in the 250A model. The intuitive interface and clear display make it easy for operators to navigate through settings and configurations. Additionally, the modular design of the UPS allows for easy maintenance and upgrades, minimizing downtime and optimizing service efficiency.

To enhance its reliability, the MGE UPS Systems 250A comes with multiple safety features, including overload protection, short circuit protection, and temperature monitoring. These safeguards ensure that the system operates within safe parameters, reducing the risk of damage to both the UPS and connected equipment.

In summary, the MGE UPS Systems 250A is a powerful and versatile solution for businesses requiring reliable power protection. With its advanced technology, energy-efficient design, and user-friendly features, it meets the demands of modern power requirements while ensuring seamless operation and equipment safety.