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CPS-M1-MSE

English

99.828.70 1.2/07/22

Type

CPS-M1-MSE

-020-xxxx

CPS-M1-MSE

-040-xxxx

CPS-M1-MSE

-060-xxxx

CPS-M1-MSE

-080-xxxx

Supply

230 V AC, ± 15%, 45 to 60 Hz

Performance*

Performance in standby*

530 VA / 480 W

ca. 7.5 W

1040 VA / 960 W

ca. 8.5 W

1570 VA / 1440 W

ca. 16 W

2080 VA / 1920 W

ca. 17 W

Output voltage

Ripple

24 V DC ± 1%

< 50 mV

SS

Nominal output current

20 A

40 A

60 A

80 A

Mode of operation

- Monitoring

- Alarm state / ventilation

Continuous duty

Short-time duty (30 % duty cycle)

Housing

Sheet steel

Colour

RAL 7035, light grey

Type of protection

IP 54 (VdS IP 30)

Protection class

I

Temperature range

-5 to +40 °C

Air humidity

5% to 95% RH

Installation acc. to ICE 61439

up to 2000 m/üMN

Dimensions W x H x D

500 × 500 × 210 mm

600 × 800 × 250 mm

600 × 800 × 250 mm

800 × 1000 × 300 mm

* For 230 V AC systems plus the power of the NSV 401 and the connected 230 V AC drives

Technical data

•  Emergency supply time: 72 hours

• 

Only use VdS-approved batteries.

• 

The sum of the nominal currents of the drives and actuators that are 

triggered when there is an alarm must not exceed the max. permitted 

load of the respective battery type

• 

The required battery capacity has to be determined for each PSM.

• 

The sum of the required ampere-hours (Ah) of all components, 

including a 30% reserve, must be smaller than the capacity of the 

battery

Standard batteries:

For each PS-S1-24-20 (+PSM): 2 x battery type 5 (12 V, 18 Ah ± 15%)

For each PS-S1-24-40 (+PSM): 2 x battery type 6 (12 V, 26 Ah ± 15%)

A special battery calculator is available for the exact determination 

of the required battery capacity.

24 V emergency supply

Components

Approx. Ah required for 72 hours

Intrinsic consumption by CM

0.52 Ah

CM supply of the modules

0.018 Ah per module

PSM

0.29 Ah

IOM

0,26 Ah

BRM

0,21 Ah

TMA

0.58 Ah

AM

0.43 Ah

AM 230

0,3 Ah

Fire detector

0.005 Ah

Smoke vent button

0.014 Ah

24 V DC Drives / actuators for 

180 sec.

0.18 Ah (for each 1 A nominal 

current)

Alarm devices 250 mA for 180 

sec.

0.045 Ah

Devices and digital outputs with 

an emergency supply (can be 

adjusted using SCS)

7.2 Ah (for each 100 mA output 

current)

Digital outputs with an emer

-

gency supply (can be adjusted 

using SCS)

3.6 Ah (for each 50 mA output 

current)

Touch panel

0.4 Ah

Required capacity = Sum of the required Ah plus a 30% reserve

Battery type

Max. permitted 

load through 

drives / actuators

Connector

Battery type 4 (12 Ah ± 15%)

24 A

Flat plug 

6,35 mm

Battery type 5 (18 Ah ± 15%)

36 A

hole cable 

lug Ø 5 mm

Battery type 6 (26 Ah ± 15%)

52 A

Declaration of conformity

We declare under our sole responsibility that the product described 

under "Technical Data" complies with the following directives:

2014/30/EU, 2014/35/EU, 2011/65/EU
S.I. 2016/1091, S.I. 2016/1011, S.I. 2012/3032 

Technical documents stored at:

D+H Mechatronic AG, D-22949 Ammersbek
Dirk Dingfelder 

Maik Schmees

 

CEO 

 

CTO

06.07.2022

ACB interface

ACB is used for secure communication between the drive and com

-

patible D+H control systems. It enables activation, diagnostics and 

configuration with perfect position, directly from the control panel. In this 

process, all status messages, such as the OPEN and CLOSED signals, 

opening stroke and drive errors are transmitted to the control panel.

The ACB bus is based on an open Modbus RTU protocol via which the 

actuator can be directly controlled and queried.

Further information can be found in the D+H ACB Planning Manual.

Max. Number of drives per ACB connection:

AM 24 

=  max. 20 ACB drives

AM 230 

=  max. 20 ACB drives (CDC-5-ACB = max. 15)

 

  In conjunction with locking drives (VLD, FRA), 

 

  a maximum of 10 drives (incl. locking drives) can be 

 

 connected.

Topology of the ACB bus line:

•  Stub lines max. 15m

• 

Total length incl. stubs max. 200m.

• 

To avoid interference, the cables from the drive to the AM module 

must be laid close together.

Summary of Contents for CPS-M1-MSE

Page 1: ...CPS M1 MSE D H Downloads 99 828 70 1 2 07 22 en Original instructions Page 2...

Page 2: ...e Safety information 230 V AC operating voltage Risk of injury from electric shock Only an authorised electrically skilled person is allowed to connect the power Keep children away from the controller...

Page 3: ...arm systems VdS 2221 VDE 0100 for electrical systems DIN 18232 for SHEV systems the provisions of the local fire brigade and of the energy supply compa ny for the mains connection EN 12101 10 Energy s...

Page 4: ...bracket optional TP C1 35 RJ12 RJ12 socket C o n t r o l m o d u l e C M B T 1 D 4 P 2 C o n t r o l m o d u l e C M B 1 D 4 P 2 M a i n s s u p p l y m o d u l e P S M 1 2 4 0 4 0 2 4 V D C a c t u...

Page 5: ...26 Ah battery type 6 72 hours of emergency supply time Integrated protection against excessive discharge Temperature controlled charging voltage with external temperature sensor Integrated LED to indi...

Page 6: ...ated LEDs to indicate a fault yellow and alarm red Connection using removable spring type terminals Conductor cross sections max 1 5 mm flexible Dimensions WxHxD 26x130x125 mm Installation on a 35 mm...

Page 7: ...30 0 3 Ah Fire detector 0 005 Ah Smoke vent button 0 014 Ah 24 V DC Drives actuators for 180 sec 0 18 Ah for each 1 A nominal current Alarm devices 250 mA for 180 sec 0 045 Ah Devices and digital outp...

Page 8: ...ght of it Each additional PSM always provides power only to the modules to the right of it This applies also to the emergency battery power Therefore the modules are to be distributed evenly across th...

Page 9: ...upplying the drive Mot a Mot b For pole changing drives 1 additional wire for cable monitoring through which the SHEV high speed HS signal is also transmitted to the drive For ACB drives 2 additional...

Page 10: ...PE Connection PSM RJ12 connecting cable CC TP TCSU max 2 m Battery Battery No Name Description X2 1 N Output potential without an emergency supply for ventilation functions max 500 mA X2 2 Reference...

Page 11: ...T1 L1 L2 L3 T3 T2 T1 Q1 PE 63A T2 T3 X1 2 L1 L2 L3 PE N Q2 1 8 7 Q3 1 2 1 4 3 6 5 F1 L3 L2 L1 T1 8 7 2 1 4 3 6 5 F2 B13A 230V 24V L N PE SNT SNT PS S1 24 40 T1 4 3 2 1 PSM 1 24 40 1 1 2 2 SNT BATT SNT...

Page 12: ...slave interface X5 2 ACN D X5 3 ACN D X6 5 n c n c X6 4 DI 1 2 Freely configurable digital input 0 to 28 V active minus or plus control panel OPEN factory setting can be pro grammed using SCS X6 3 DI...

Page 13: ...ry Battery type Lithium cell CR1216 3 Read in parameterization again Termination The AdComNet segment must be terminated with 2 resistors 110 The resistors must in each case be connected at the end of...

Page 14: ...2 1 2 3 PE M 3 U V W PE 1T1 1T2 1T3 1L3 1L2 1L1 13 14 21 22 HIS HIS HIO HIO PE C13A F1 1 L1 3 L2 5 L3 T1 2 T2 4 T3 6 Q2 2 3 L2 1 L1 5 L3 4 2 6 T2 T1 T3 Q2 3 4 3 2 1 4 3 2 1 BRM 1 COC0006 4 4 4 3 3 3 2...

Page 15: ...output 2 COM X3 1 NC 3 Floating output 3 normally closed X3 2 COM 3 Floating output 3 COM X3 3 NO 3 Floating output 3 normally open X3 4 COM 3 Floating output 3 COM X4 4 COM 4 Floating output 4 COM X...

Page 16: ...1 4 3 2 1 BRM 1 COC0006 4 4 4 3 3 3 2 2 2 1 1 1 X1 X2 X3 X6 X5 X4 COM 6 NO 6 NC 6 COM 6 COM 5 NO 5 NC 5 COM 5 COM 4 NO 4 NC 4 COM 4 4 3 2 1 NO 3 COM 3 COM 3 NC 3 COM 2 NO 2 COM 1 COM 1 COM 2 NC 2 NO 1...

Page 17: ...eely configurable digital output 3 4 X3 2 DO 3 3 freely configurable digital output 3 3 X3 3 Reference potential do not connect to P X3 4 DO 3 2 freely configurable digital output 3 2 X3 5 DO 3 1 free...

Page 18: ...X5 X4 5 4 3 2 1 DO 1 1 DO 1 2 DO 1 4 DO 1 3 DO 2 4 DO 2 4 DO 2 1 DO 2 3 DO 3 2 DO 3 1 DO 3 4 DO 3 3 DI 3 2 DI 3 3 DI 3 4 DI 3 1 DI 2 2 DI 2 3 DI 2 4 DI 2 1 DI 1 2 DI 1 3 DI 1 4 DI 1 1 F1 95 98 95 96 Q...

Page 19: ...output 3 1 max 50 mA short circuit proof X4 5 DI AI 1 1 freely configurable multifunctional input 1 1 digital 0 28 V active minus or plus analog 0 10 V X4 4 DI AI 1 2 freely configurable multifunctio...

Page 20: ...AI 1 4 DI AI 1 1 ADM DO x x X1 X2 X3 ADM DI x x 24 V DC X6 X5 ADM DI AI x x 24 V DC X4 ADM DI AI x x 0 10 V DC X4 24 V DC N in out English 99 828 70 1 2 07 22 Connection ADM either either active plus...

Page 21: ...ACB interface of drive group 2 X3 4 ACB A 2 X4 4 SGI 1 Position transmitter for drive group 1 not yet implemented X4 3 Reference potential do not connect to P X4 2 SGI 2 Position transmitter for drive...

Page 22: ...2 ACB B 1 Mot b 2 Mot a 2 Mot b 1 E HS 1 E HS 2 P Mot a 1 P EM 47 K 2x47kW BK BK OG Mot b ACB a HS Mot b ACB a HS Mot a Mot a Mot b ACB a HS Mot b ACB a HS Mot a Mot a EM 47 K 2x47kW BK BK OG X1 1 X1...

Page 23: ...Mot b 1 E HS 1 E HS 2 P Mot a 1 P EM 47 K 2x47kW BK BK OG Auf Zu 4 3 2 1 4 3 2 1 AM 1 2 10 24 D6 D2 4 4 4 3 3 3 2 2 2 1 1 1 X1 X2 X3 X6 X5 X4 DI 1 1 DI 1 2 DO 1 1 DI 2 1 DI 2 2 DO 2 1 SGI 2 SGI 1 4 3...

Page 24: ...to P X4 4 ACB Supply of the ACB interface X4 3 ACB A ACB interface of drive group X4 2 ACB B X4 1 SGI Position transmitter for drive group not yet implemented X5 4 DO 1 1 Freely configurable digital...

Page 25: ...SES DI 1 1 DI 1 2 DO 1 1 L L N L E N L N NSV L N PE L L N PE L 230 V AC 50 Hz L N PE ION O OFF ION O OFF before vor avant Battery Service switch off the battery Batterieschalter auf OFF schalten d bra...

Page 26: ...AC 50 Hz L N PE ION O OFF ION O OFF before vor avant Battery Service switch off the battery Batterieschalter auf OFF schalten d brancher la batterie ION O OFF L N L N PE K1 K2 K1 K2 K1 1 2 3 4 5 6 7...

Page 27: ...K Freely configurable digital output 4 1 max 50 mA X6 5 DO 3 2 A Freely configurable digital output 3 2 max 50 mA X6 4 DO 3 3 S Freely configurable digital output 3 3 max 50 mA X6 3 Reference potenti...

Page 28: ...7 S 6 A 1 K 2 3 5 T 8 5 R 2 3 bu rd EM L01 5 R 2 3 bu rd EM L01 2 8 3 5 T n c 4 Z 7 S 6 A 1 K OK RT 45 4 Z 7 S 6 A 1 K OK 2 8 3 5 T n c RT 45 OK RT 45 OK SD O 371 FD T 271 SD O 371 FD T 271 rd bu EM...

Page 29: ...Z Z 7 7 S S 6 6 A A 1 1 K K OK rd bu EM L01 X1 1 X1 5 X2 1 X2 5 X3 1 X3 5 5 4 3 2 1 5 4 3 2 1 TMA 1 D4 D12 5 5 5 4 4 4 3 3 3 2 1 2 1 2 1 X1 X2 X3 X6 X5 X4 5 4 3 2 1 A S n c n c T K FE Z R FE n c Z S...

Page 30: ...rrent of 50 mA The connection is permanently short circuit resistant and the fuse used is self resetting If the output is deactivated the output is open has a high resistance Active negative inputs ca...

Page 31: ...be used in conjunction with corresponding D H high speed drives If D H drives without high speed or third party drives are connected activation can destroy the drive Standard configurations Controller...

Page 32: ...ly moves in the CLOSED direction in the event of a mains outage Only the control panel groups move in the CLOSED direction in the event of a mains outage Groups in the same link belonging to another C...

Page 33: ...puts IOM I O module Display of the module status Display of the status of the inputs and outputs Modules Overview of all modules used Display of the respective statuses similar to the LEDs on the resp...

Page 34: ...sing the smoke vent button as otherwise there is a risk of wind or water damage If gap ventilation is desired in bad weather the weather automation can be switched off using an optional automatic swit...

Page 35: ...ration Closing after alarm Manual opening with smoke vent button Automatic opening with fire detector Automatic opening through external control e g central fire alarm For manual triggering using smok...

Page 36: ...stems etc must not be impaired by stored articles or structural changes Maintenance and cleaning Carried out once a year by a specialist company authorised by the device manufacturer Carry out cleanin...

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