milleteknik ECO 24V 3A S User manual
ECO
ECO 24V 3A S, ECO 24V 5A M, ECO 24V 10A M
EN
351-195
Publication date 2022-05-03
Table of Contents
1. About ................................................................................................................................ 5
1.1. Name, article number and e-number ......................................................................... 5
1.2. Revisions and the edition of this document ................................................................ 5
2. Component overviews ........................................................................................................ 6
2.1. Component overview ............................................................................................... 6
2.2. Component overview ............................................................................................... 6
3. Enclosures ........................................................................................................................ 7
3.1. Wall mounting ......................................................................................................... 7
3.2. Wall mounting ......................................................................................................... 7
4. Connection of batteries ....................................................................................................... 8
4.1. Connecting batteries in S and M ............................................................................... 8
4.2. Connection of 2 batteries ECO S 12 V ...................................................................... 9
4.3. Connection of 1 battery ECO S 12 V ...................................................................... 10
4.4. Connection of battery in ECO S 24 V ...................................................................... 11
5. CEO3 v5 Up .................................................................................................................... 11
5.1. Motherboard description ........................................................................................ 11
5.1.1. Connect in this order ................................................................................... 11
5.1.2. Connect alarm ............................................................................................ 12
5.1.3. Connect load .............................................................................................. 12
5.1.4. Connect mains ........................................................................................... 13
5.1.5. Control alarm limit ...................................................................................... 14
5.1.6. Fuses ........................................................................................................ 14
6. Commissioning - how to start the unit ................................................................................ 14
7. Alarm displayed on cabinet door ....................................................................................... 15
8. ECO product sheet ........................................................................................................... 16
8.1. Product sheet / technical data ................................................................................ 16
8.1.1. Name, article number and e-number ............................................................ 17
8.1.2. About ......................................................................................................... 17
8.1.3. Areas of use ............................................................................................... 17
8.1.4. Fixed installation ......................................................................................... 18
8.1.5. Test before installation of 230 V ................................................................... 18
8.1.6. Battery types .............................................................................................. 18
8.2. Regulations and certifications ................................................................................ 18
8.2.1. Requirements that the product meets .......................................................... 18
8.3. Expected operating time in the event of a power failure ( with new batteries) ............. 18
8.4. Circuit boards - Technical data ............................................................................... 19
8.4.1. Technical data: CEO 3 ................................................................................ 19
8.5. Power supply ........................................................................................................ 20
8.5.1. Power supply - Technical Data LRS-75-12 .................................................... 20
8.5.2. Power supply - Technical Data LRS-150-12 .................................................. 20
8.5.3. Power supply - Technical Data LRS-75-24 .................................................... 21
8.5.4. Power supply - Technical Data LRS-150-24 .................................................. 21
8.5.5. Power supply - Technical Data RSP-320-24 ................................................. 22
8.6. Technical data enclosures ...................................................................................... 22
8.6.1. Enclosures - Technical Data S ..................................................................... 22
8.6.2. Enclosures - Technical Data M .................................................................... 23
8.7. Link to the latest information .................................................................................. 23
8.8. Warranty, support, country of manufacture and country of origin ............................... 23
8.8.1. Warranty .................................................................................................... 23
8.8.2. CE marking ................................................................................................ 23
8.8.3. Support ...................................................................................................... 24
8.8.4. Contact us ................................................................................................. 24
8.8.5. Country of manufacture ............................................................................... 24
3
8.8.6. Designed and produced by: Milleteknik AB ................................................... 24
8.9. Batteries - recommended, not included ................................................................... 24
8.9.1. ................................................................................................................ 24
8.9.2. 2.3 Ah, 12 V AGM battery ........................................................................... 24
8.9.3. 4.5 Ah 12 V AGM battery ............................................................................ 25
8.9.4. Reserve operating times for different alarm classes - overview ...................... 25
9. Address and contact details .............................................................................................. 26
4
1. ABOUT
The ECO series are reliable and smaller battery backups for use with access control systems, locking
systems and smoke hatches. The battery backups have controlled charging *.
* Controlled charging prevents batteries from being overcharged, which significantly extends their serv-
ice life.
NOTICE
This unit should be installed on a wall or in a 19" rack, indoors.
The temperature must be 15 - 30 ° C.
Mains voltage must be disconnected during installation.
Only authorized persons should install and maintain the unit.
1.1. Name, article number and e-number
Name Article number E-number (SV)
ECO 24V 3A S SM01C10124P030 5213516
ECO 12V 10A M ME01C10112P100 5213519
ECO 24V 5A M ME01C10124P050 5213521
ECO 24V 10A M ME01C10124P100 5213522
ECO 12V 5A S SM01C10112P050 5213650
1.2. Revisions and the edition of this document
The current and most recently published edition of this document is available at www.milleteknik.se.
The validity of this document can not be guaranteed, as new editions are published without prior notice.
5
2. COMPONENT OVERVIEWS
2.1. Component overview
Table 1. Component overview
Number Explanation
A Cabinet in powder-coated sheet metal.
B The power supply, location and type vary with configuration.
C Motherboard.
D Cable entries.
E Space for batteries.
2.2. Component overview
6
Table 2. Component overview
Number Explanation
A Cabinet in powder-coated sheet metal.
B The power supply, location and type vary with configuration.
C Motherboard.
D Cable entries.
E Space for batteries.
3. ENCLOSURES
3.1. Wall mounting
Use four screws suitable for the wall to mount the cabinet.
The distance between the screw head and the wall should be 1.5–2 mm.
Preferably leave a 100 mm air gap around the unit.
3.2. Wall mounting
Use four screws suitable for the wall to set up the cabinet.
The distance between the screw head and the wall should be 1.5–2 mm.
Preferably leave a 100 mm air gap around the unit.
7
4. CONNECTION OF BATTERIES
4.1. Connecting batteries in S and M
Mains voltage should be disconnected when connecting batteries
1. Slide batteries from the side with the battery terminals toward the center. Only use new batteries
during installation and battery replacement.
2. Connect fuses on batteries. Connect red cable to + (plus) and black cable to - (minus)
3. Connect cables from battery backup to batteries. Connect red cable to + (plus) and black cable to -
(minus)
Figure 1. Slide the battery from the side with the battery terminals toward the center.
The picture shows how cables should be connected.
8
4.2. Connection of 2 batteries ECO S 12 V
Figure 2. Connection of two batteries with fuse
Table 3. Connection of 2 batteries ECO 12 V
Letter Explanation
A The fuse cable is connected to the positive terminal of the battery.
B Plus cable, which has double pins, from the circuit board is connected directly to the battery-plus and one of the fuse's
cables.
C Fuse between positive terminals on the two batteries.
D Battery fuse on motherboard.
E Battery cables from motherboard.
F Minus cable, which has a double pin, from the circuit board is connected to the battery minus and one of the fuse
cables.
G The other cable of the fuse is connected to the negative terminal of the battery.
H Fuse between negative terminals on the two batteries.
9
4.3. Connection of 1 battery ECO S 12 V
Figure 3. Connecting a battery
Table 4. Connection of 1 battery ECO 12 V
Letter Explanation
A Battery cables from the motherboard are connected to the battery plus and minus terminals.
B Battery fuse is located on the circuit board.
NOTE
Fuses that come with the device in a bag should not be used when using 1 battery.
10
4.4. Connection of battery in ECO S 24 V
Figure 4. Connection of two 12 V batteries with fuse
Table 5. Connection of 2 batteries ECO 24 V
Letter Explanation
A, B The fuse cable is connected to the positive terminal of one battery and the negative terminal of the other battery.
C Fuse between positive terminals on the two batteries.
D Battery fuse on motherboard.
E Battery cables from motherboard.
5. CEO3 V5 UP
5.1. Motherboard description
5.1.1. Connect in this order
To minimize the risk of errors that may occur in connection with a short circuit, connections to the
motherboard must be made in this order.
11
Table 6. Connect in this order
Nr Explanation
1 Connect alarm.
2 Connect load.
3 Connect batteries
4 Connect mains.
5.1.2. Connect alarm
Connect alarm on terminal P3.
Table 7. Connect alarm P3
P3: 4-6 Explanation
Sum-alarm
P3: 4 NC
P3: 5 Com
P3: 6 NO
5.1.3. Connect load
12
Table 8. Load connections
Circuit board number Explanation
P2: 1 Connection for load 1 +
P2: 2 Connection for load 1 -
P2: 3 Connection for load 2 +.
P2: 4 Connection for load 2 -.
MAX CURRENT
Maximum current must not be exceeded. Maximum current is indicated on the CE-
marking on the unit.
DANGER
Mains must be disconnected when working with bare wires.
Maximum cable area is 4 mm2
It is the installer's responsibility to ensure that the installer is authorized to install.
Damage arising from lack of skill or lack of formal requirements (varies from country to
country) is under no circumstances the responsibility of the manufacturer.
5.1.4. Connect mains
Pull wiring through the cable entry on the cabinet.
If possible, secure the mains cable with cable ties where possible.
Electrical network cabling shall be kept separate from other cabling to avoid EMC interference.
Figure 5. Connect the mains to the motherboard
Connect the mains cable to the terminal before it is put back on the motherboard. Secure F and N with
cable ties for electrical safety.
Table 9. Electrical network connections
Letter Explanation
F Phase
N Neutral
PE Protective earth
13
ELECTRICAL MAINS CONNECTION 230 V AC ON CIRCUIT
BOARD
Check that the marking on the circuit board matches the cable arrangement on the
terminal block.
5.1.5. Control alarm limit
Alarm for low battery voltage in battery operation can be controlled.
By jumpering JU2, the limit for when the unit should give an alarm can be lowered.
Alarms are given when the battery voltage in battery drops below the limit.
JU2 12 V limit for when alarms are given 24 V limit for when an alarm is given
JU2 without jumper 13,2 V* 26,5 V*
JU2 with jumper 10 V 24 V
* Delivered without jumper on JU2.
5.1.6. Fuses
Unit Fuse Type Explanation
All units F1 T2,5A Mains fuse
ECO 24V 3A S. F2, F6 F3A Load fuse +
ECO 12V 5A S. ECO 24V 5A M. F2, F6 F5A Load fuse +
ECO 12V 10A M. ECO 24V 10A M. F2, F6 F10A Load fuse +
All units F7 T16A Battery fuse
FUSE REPLACEMENT WARNING (A)
There is a risk of damage if the fuse is changed to a larger one than what the unit
is delivered with. The function of the fuse is to protect the connected load and cables
against damage and fire. It is not possible to change the fuse to a larger one to
increase the power output.
6. COMMISSIONING - HOW TO START THE UNIT
Table 10. Commissioning - the scheme
Step Explanation
1 Connect batteries.
2 Connect motherboard cables to battery terminals.
3 Connect fuse holder with fuse between batteries.
4 Connect load, alarm and other connections.
5 Connect mains.
14
Step Explanation
6 Screw the mains cable into the terminal block and attach the terminal block to the motherboard.
7 Switch on mains voltage.
The unit works normally when the indicator LED on the outside of the cabinet door lights up with a solid
green light. See front panel for other status indications.
It may take up to 72 hours before the batteries are fully charged.
7. ALARM DISPLAYED ON CABINET DOOR
In normal mode, the indicator LED shows a solid green light.
The display LED shows Explanation
Solid green light Normal operation
Solid red light Undervoltage, LED is green in the event of a power failure until the battery voltage drops below the
alarm limit.
Broken fuse, LED is red in the event of a broken fuse.
When operating system: If the indicator LED is off, deep discharge protection has come into force.
15
8. ECO PRODUCT SHEET
8.1. Product sheet / technical data
Figure 6. ECO S
ECO S The unit must be wall-mounted.
16
Figure 7. ECO M
ECO M The unit must be wall-mounted.
8.1.1. Name, article number and e-number
Name Article number E-number (SV)
ECO 24V 3A S SM01C10124P030 5213516
ECO 12V 10A M ME01C10112P100 5213519
ECO 24V 5A M ME01C10124P050 5213521
ECO 24V 10A M ME01C10124P100 5213522
ECO 12V 5A S SM01C10112P050 5213650
8.1.2. About
The ECO series are reliable and smaller battery backups for use with access control systems, locking
systems and smoke hatches. The battery backups have controlled charging *.
* Controlled charging prevents batteries from being overcharged, which significantly extends their serv-
ice life.
• For AGM batteries.
• Can be tested with only batteries connected.
• Has controlled charging for better operating economy.
8.1.3. Areas of use
Most used in:
17
Access control system
Lock system
Smoke hatches
8.1.4. Fixed installation
The product is intended for fixed installation. The battery backup must be installed by a qualified
installer.
8.1.5. Test before installation of 230 V
"Cold start" means that the battery backup can be commissioned with only the batteries connected
without the battery backup being connected to 230 V. This is practical if the installer is not a qualified
electrician but still wants to be able to test the system.
8.1.6. Battery types
The ECO series can be used with AGM batteries. Do not mix types of batteries, brand or used and new
batteries.
8.2. Regulations and certifications
8.2.1. Requirements that the product meets
EMC: EMC Directive 2014 / 30EU
Electricity: Low voltage directive: 2014/35 / EU
EN 60950-1
CE: CE directive according to: 765/2008
8.3. Expected operating time in the event of a power failure ( with
new batteries)
Table 11. Expected operating time in the event of a power failure (applies to new batteries):
System
voltage Number
of batter-
ies
Battery
type Load:
0.1 A Load:
0.3 A Load:
0.6 A Load: 1
ALoad:
1.5 A Load: 2
A
12 V 1 pcs . 2.3 Ah 12 h 4 min 2 h 1 h 40 min 20 min
12 V 1 pcs . 7.2 Ah 42 h 19 h 10 h 5 h 3 h 2 h
24 V 2 pcs . 2.3 Ah 12 h 4 h 2 h 1 h 40 min 20 min
24 V 2 pcs . 4.5 Ah 24 h 8 h 4 h 2 h 1.5 h 40 min
18
8.4. Circuit boards - Technical data
8.4.1. Technical data: CEO 3
Table 12. CEO3-ECO
Info Explanation
Article name CEO3-ECO
Product description CEO 3 is the next generation circuit board for simpler battery backups. Advanced functions that were not
previously possible in simpler battery backups are now available as standard. CEO 3 is manufactured with
fewer components than before, which reduces the environmental impact.
Measure 120 x 55 mm x 52 mm
Fuses See table: Fuses.
Outputs Output: two load outputs.
Insurance Load output: + secured.
Max load Maximum load is 10 A per load output (F2A is mounted from the factory) and the card's total load must not
exceed 16 A.
Alarm outputs Alarm outputs: Sum alarm in case of fuse fault, see indication below. Alarm on potential-free relay contact.
Alarm via Triggered load securing, potential-free shifting, CO / NO.
Indication Display showing operating status, alarms and faults. Operating indication: one indication diode per load
output +/-. Solid green light = normal operation.
CONTROL ALARM LIMIT WITH JU2
CONTROL ALARM LIMIT
Alarm for low battery voltage in battery operation can be controlled.
By jumpering JU2, the limit for when the unit should give an alarm can be lowered.
Alarms are given when the battery voltage in battery drops below the limit.
JU2 12 V limit for when alarms are given 24 V limit for when an alarm is given
JU2 without jumper 13,2 V* 26,5 V*
JU2 with jumper 10 V 24 V
* Delivered without jumper on JU2.
FUSES
Unit Fuse Type Explanation
All units F1 T2,5A Mains fuse
ECO 24V 3A S. F2, F6 F3A Load fuse +
ECO 12V 5A S. ECO 24V 5A M. F2, F6 F5A Load fuse +
ECO 12V 10A M. ECO 24V 10A M. F2, F6 F10A Load fuse +
All units F7 T16A Battery fuse
FUSE REPLACEMENT WARNING (A)
There is a risk of damage if the fuse is changed to a larger one than what the unit
is delivered with. The function of the fuse is to protect the connected load and cables
against damage and fire. It is not possible to change the fuse to a larger one to
increase the power output.
19
8.5. Power supply
8.5.1. Power supply - Technical Data LRS-75-12
In:
ECO 12V 5A S
Info Explanation
Output voltage 13.6 V
Output current 0 A - 6 A
Output voltage, ripple 120 mVp-p
Overvoltage 13.8 V - 16.2 V
Voltage recharge, ripple / current limitation Less than 0.6 Vp-p
Efficiency 84.5%
Current limitation 110% - 180%
Constant voltage +/- 1.0%
Regulatory accuracy + / - 0.5%
Input current (230 V) 1,2 A
Mains voltage frequency 47 Hz- 63 Hz
Mains voltage 85 V AC - 264 V AC
Brand effect 25,2 W
Temperature range -30°C - +70°C
Humidity range 20% - 90% RH non-condensed
The power supply is adapted and calibrated with the battery / hardware of the battery backup. Only power and calibrated power supplies may be used. Contact support when
changing power supplies. Use of power supplies coming from another source may cause damage not covered by the warranty. Warranty is canceled if power supplies (from a
source other than support / designated by support) that are not correctly calibrated are used.
8.5.2. Power supply - Technical Data LRS-150-12
In:
ECO 12V 10A M
Info Explanation
Output voltage 13,6 V
Output current 0 A - 12.5 A
Output voltage, ripple 150 mVp-p
Overvoltage 13,8 V - 16,2 V
Voltage recharge, ripple / current limitation Less than 0.6 Vp-p
Efficiency 87.5%
Current limitation 110% - 140%
Constant voltage +/- 0.5%
Regulatory accuracy * / - 1.0%
Input current (230 V) 1,7 A
Mains voltage frequency 47 Hz- 63 Hz
Mains voltage 230 V AC - 240 V AC
Brand effect 150 W
Temperature range -30°C - +70°C
Humidity range 20% - 90% RH non-condensed
20
This manual suits for next models
10
Table of contents
Popular Medical Equipment manuals by other brands
zebris
zebris FDM-SX Technical data and operating instructions
Stryker
Stryker ComfortGel SE 1805-034-300 Operation manual
Care of Sweden
Care of Sweden CuroCell AREA Zone Instructions for use
Guilin Woodpecker Medical Instrument
Guilin Woodpecker Medical Instrument Endo Radar Plus instruction manual
Practivet
Practivet INFUSION PUMP quick start guide
Servona
Servona Servoport 3000 m instruction manual
