ADELSYSTEM All In One DC UPS Series Instruction Manual

Version R60-3

Specifications subject to change without notice.

For more information, visit: heliosps.com

1 "ALL IN ONE" DC UPS SERIES

Thank you for choosing an ADELSYSTEM product. This manual provides essential information for the installation and operation of your new DC UPS.

2 GENERAL DESCRIPTION

The ADELSYSTEM "All In One" CBI series of DC-UPS offers optimized power management in a compact and cost-effective unit. It connects directly to the mains, automatically distributing power between the load and battery, prioritizing the load. The unit supports 'Power Boost' for increased output power and can supply the load from the battery during mains failure. The 'Battery Care' algorithm ensures rapid charging, charge optimization, recovery of flat batteries, and real-time diagnosis. Temperature compensation is available via an optional sensor. The auto-diagnostic system monitors battery health, signaling faults via LED indicators or Modbus. Predefined charging curves are selectable via jumpers or DIP switches for various battery types (Open Lead Acid, AGM, Gel Lead Acid, Ni-Cd, Li-ion options). Output dry contacts signal backup and fault conditions. The unit features a rugged casing with DIN rail mounting for IP20 protection.

3 MAIN CHARACTERISTICS

Universal input voltage: single-phase 115-230-277 Vac
Load output: 24 Vdc (3.5, 10, 20A); 12 Vdc (3, 6, 10, 15, 35A); 48 Vdc (5, 10A)
Battery output: 24 Vdc (3.5, 10, 20A); 12 Vdc (3, 6, 10, 15, 35A); 48 Vdc (5, 10A)
'All In One' solution: power supply + battery charger + backup module
Suitable for various battery types: Open Lead Acid, Sealed Lead Acid, AGM, Gel Lead Acid; Ni-Cd and Li-ion available as options. Features 5-stage IUoU charging (Recovery, Bulk, Absorption, Float, Refresh Battery).
Automatic battery status diagnosis and Life Test function ('Battery Care').
High efficiency switching technology.
Protected against short circuit, overload, and inverted polarity.
Output dry contacts for signaling Low Battery, Battery Replacement, and Fault system.
Output dry contacts for signaling Mains or Backup status.
IP20 protection degree.
Space-saving DIN rail mounting.

4 SAFETY AND WARNING NOTES

WARNING – Explosion Hazard: Do not disconnect equipment unless power is switched off or the area is known to be non-hazardous.
WARNING – Explosion Hazard: Substitution of components may impair suitability for Class I, Division 2.
WARNING: Switch off the system before connecting the module. Never work on live equipment. Installation must comply with UL62368-1. Ensure a suitable isolating facility is available.
WARNING - Residual voltage: Wait for 10 seconds before operating on CBI2420A and CBI485A.
WARNING - High touch current.
WARNING - Connect to earth before connecting to the supply.

5 INSTALLATION NOTES

This equipment is not suitable for use in locations where children are present.
Intended for installation in restricted access areas only.
Requires connection to the PROTECTIVE EARTHING CONDUCTOR.
An all-pole MAINS switch compliant with UL 62368-1 Annex L is required.
Proper bonding to the end-product main protective earthing termination is required.
Required end-product enclosures: Fire, Electrical, Mechanical.

6 CONNECTION

6.1 CONNECTION TERMINAL AND WIRING

The following cable cross-sections are recommended:

Type	Solid (mm²)	Stranded (mm²)	AWG	Torque (Nm)	Stripping Length	All In One (Size)
In:	0.2 - 2.5	0.2 - 2.5	24 - 14	0.5 - 0.6 Nm	7 mm	Size 1 and 2
	4.0	6.0	30 - 10	0.8 - 1.0 Nm	7 mm	Size 3 and 4
Out:	0.2 - 2.5	0.2 - 2.5	24 - 14	0.5 - 0.6 Nm	7 mm	Size 1 and 2
	4.0	6.0	30 - 10	0.8 - 1.0 Nm	7 mm	Size 3 and 4
Signal:	0.2 - 2.5	0.2 - 2.5	24 - 14	0.5 - 0.6 Nm	7 mm	All types

Use 2.5 mm² or 4.0 mm² terminal blocks. Ensure wiring terminals are marked correctly. Use copper cables for supply connections. AC main wiring must be suitable for minimum 80°C. Protective Earth connection must be minimum 4mm²/10AWG.

Input Line System: Supports TN, TNS, TNC, and IT configurations.

6.3 OUTPUT POWER CONNECTIONS: LOAD AND BATTERY

6.3.1 Normal connection

This configuration connects one output to the Load ('DC Bus') and one input/output to the battery. The number of batteries depends on the model: one 12 Vdc battery for CBI 12xx; two 12 Vdc batteries in series for CBI 24xx; four 12 Vdc batteries in series for CBI 48xx.

6.3.2 Parallel connection "Redundancy"

Power supplies can be paralleled for redundancy to enhance system reliability. This supports N+1 redundancy for single-point failure protection and hot-swapping. For full isolation, use decoupling diodes (e.g., Redundancy Module MR220). Recommendations include separate input fuses per CBI, monitoring individual units via LEDs, and using the two relays (Mains/Backup, Low Battery/Battery Replacement) for fault reporting. Connect each power supply to different phases or circuits where possible.

6.3.3 Parallel connection "Double Power"

To increase output power, devices can be paralleled (1+1=2). Only SIZE 3 devices can be paralleled to sum currents at the same output voltage. A standard UTP cable or RJCONN45 cable is required for connection to the Aux2 port of each device, using the CAN2.0A communication protocol. This setup provides one output for the load and one connection for the battery. Use separate input fuses for each CBI.

Configuration for Parallel Connection:

Connect the first device to the main AC input (battery disconnected).
Set Time Buffering Switch to position 9. Press the Config button (N°9) three times. The Diagnosis LED (N°8) will blink 11 times.
The device is now configured for parallel mode. Set the Time Buffering Switch back to position 0.
Repeat steps 1-3 for the second device.
Connect the Aux2 ports of both devices using RJCONN45 cables. Within 5-7 seconds, devices will auto-configure as Master-Slave. The Master provides visual signals, while the Slave's Diagnosis LED remains ON.
Ensure both CBI units have identical settings: Battery type, Charging level current, Time buffering, Life test.
Utilize the alarm contacts from both devices as needed.
For 'Start Battery' without mains voltage: use the push-start button on both units or connect a "RTCONN" cable to position 5 for a front panel pushbutton.

6.3.4 Series connection

Multiple units can be connected in series, provided the total output voltage does not exceed 150 Vdc. Voltages above 60 Vdc are dangerous and require protection against touching. Use identical power supply types for series operation. Earthing of the output is mandatory if the total output voltage exceeds 60 Vdc. Maintain a 10 mm clearance between power supplies and avoid stacking them. Avoid applying return voltage to the output terminals.

6.4 OUTPUT LOAD (MAINS INPUT ON)

With mains input present, the output load voltage follows the battery's DC output voltage. Stabilized minimum and maximum ranges are:

CBI 12xx: 11 – 14.4 Vdc (15.5 Vdc for NiCd, fixed at 12 Vdc without battery)
CBI 24xx: 22 – 28.8 Vdc (30 Vdc for NiCd, fixed at 24 Vdc without battery)
CBI 48xx: 44 – 57.6 Vdc (62 Vdc for NiCd, fixed at 48 Vdc without battery)

The 'All In One' units manage power automatically, prioritizing the load. In 'Power Boost Mode', the load output current can be 2x the rated current (Iload = In + Ibatt) continuously, or 3x the rated current (Iload = 2In + Ibatt) for 4 seconds. The device is protected against overload and short circuits.

If the battery supplies current for over 4 minutes in 'Power Boost Mode', the device will signal this via an 8-blink code.

If the mains input voltage drops below 50% of the typical input voltage, the battery will immediately supply the load without interruption.

Voltage dips on the output load will match the battery voltage.

To prevent deep battery discharge, the unit disconnects the battery when a minimum voltage level is reached.

6.5 OUTPUT LOAD: TIME BUFFERING MODE (MAINS INPUT OFF)

The following table shows example buffering times based on load current and battery capacity (Ah):

Load	BATT 1.2 Ah	BATT 3 Ah	BATT 7.2 Ah	BATT 12 Ah	BATT 100 Ah
1.5 A	20 min	60 min	200 min	400 min	/
3 A	8 min	30 min	120 min	240 min	/
5 A	3 min	15 min	55 min	100 min	/
7.5 A	2 min	10 min	30 min	60 min	/
10 A	No	7 min	20 min	45 min	20 h
12 A	No	3 min	12 min	30 min	600 min
15 A	No	No	9 min	20 min	400 min
20 A	No	No	7 min	13 min	240 min

7 LAY-OUT AND CONNECTIONS

Diagrams illustrate the physical layout and terminal connections for different unit sizes (Size 1-4). Key terminals include:

1: Battery
2: Load
3: Charging Current Limiter
4: Fault System
5: Mains-Back-Up
6: Mains-Back-Up LED
7: Fault LED
8: Diagnosis LED
9: Config/Start From Battery
10: Input Vac
11: Aux 1 (RJTemp)
12: Start From Battery (Connector)
13: Aux 2
14: Aux 3
15: Buffering Time
16: Bus Termination
17: 12/24 Output
18: Battery Config.

Input AC Port (No.10): Supports single-phase AC input (L, N, PE). Sizes 2 and 3 also support BRIDGE connection for 115 Vac input.

Battery Connection Port (No.1): Connects to the battery terminals 3 (-) and 4 (+). The number of batteries required varies by model (1x 12Vdc for CBI12xx, 2x 12Vdc in series for CBI24xx, 4x 12Vdc in series for CBI48xx).

Output Load (No.2): Connects to the load terminals 1 (-) and 2 (+).

8 DRIVE AND MONITORING

9.1 FAULT - STATUS CONDITIONS

The unit provides status and fault information via LEDs and relay contacts.

9.2 ISOLATED RELAY (SIZE:1,2,3,4)

STATUS (Mains or Backup): Indicated by Input Mains On/Off. No.5 Relay Contacts (5, 6, 7) and No.6 LED.
FAULT (Low Battery, Battery Replacement, Faulty Battery or Faulty System): Indicated by No.4 Relay Contacts (8, 9, 10) and No.8 Diagnosis LED.

9.2.3 Back Up and Fault: Relay and LED Conditions

Mains/Back-Up	Port N°5 Relay	Led N°6	Port N°4 Relay	Led N°7
Mains Input ON	5-6 Closed	led off	8-9 Closed	led off
Vac OFF	5-7 Closed	led On (1)	8-9 Closed	led off
Battery SOC YES (less than 30%)	5-7 Closed	led On	8-10 Closed	led On (2)
Battery or system Fault? YES	5-6 Closed	led off	8-10 Closed	led On
Battery or system Fault? NO	5-6 Closed	led off	8-9 Closed	led off

Note: (1) Contact relay Mains/Back switch at least 5 seconds after disconnection of Power. (2) See Diagnosis Led.

9.2.4 Relay Contact Rating: Max.DC1: 30 Vdc 1 A; AC1: 60 Vac 1A (Resistive load). Min. 1mA at 5 Vdc.

9.3 NOT ISOLATED OUTPUT (SIZE 5)

STATUS (Mains or Backup): Indicated by Input Mains On/Off. No.5 Output ON (open drain) and No.6 LED ON.
FAULT 1 (Low Battery, Battery Replacement, Faulty Battery or Faulty System): Indicated by No.4 Output ON (open drain) and No.8 Diagnosis LED.
FAULT 2 (Rectifier Alarm): Indicated by No.4 Output ON (open drain) and No.8 Diagnosis LED.

9.4 CHARGING MODE STATUS

Status	Diagnosis (No.8)	Fault Battery (No.7)
Float	1 Blink/2 sec	OFF
Absorption	1 Blink/sec	OFF
Bulk	2 Blink/sec	OFF
Recovery	5 Blink/sec	OFF

9.5 FAULTY BATTERY / FAULTY SYSTEM

Faults like reverse polarity, high battery voltage (over 32.5Vdc for CBI 24xxA), battery not connected, short-circuited battery elements, or bad battery connections are indicated by specific LED blink codes on the Diagnosis LED (No.8) and status on the Fault Battery LED (No.7).

Battery not connected: 2 Blink/pause, LED ON.
Battery element in Short Circuit: 3 Blink/pause, LED ON.
Overload or short circuit on the load: 4 Blink/pause, LED ON.
Bad battery; Internal impedance Bad or Bad battery wire connection: 5 Blink/pause, LED ON.
Life test not possible: 6 Blink/pause, LED ON.
Rectifier Alarm: 7 Blink/pause, LED ON.
Boost condition; battery discharge after 4 min. of overload: 8 Blink/pause, LED ON.
Internal fault: 9 Blink/pause, LED ON.
Low battery (under 18.5Vdc for CBI 24xxA): 10 Blink/pause, LED ON.
Master-Slave connection lost: 11 Blink/pause, LED ON.
Mains detector failure: 12 Blink/pause, LED ON.
Bad battery wire connection (Parallel mode on Slave): 13 Blink/pause, LED ON.
Device over-temperature Alarm: 14 Blink/pause, LED ON.
Boost condition; battery discharge after 4 min. of overload (Parallel mode on Slave): 15 Blink/pause, LED ON.
Calibration error: 16 Blink/pause, LED ON.

9.6 START FROM BATTERY ONLY, NO INPUT MAINS VAC

The system can be switched ON using the battery only via the push-button (No.9, 3 sec. press) or a connected RTCONN cable (No.12/Jumper n.5). Note: Do not leave the jumper in the 'Start from Battery' position, as it can fully discharge the battery.

9.7 BUFFERING TIME SETTING

For Size 3 models, a rotary switch (No.15) allows setting a buffering time (0.5 to 60 minutes) that activates when mains power is switched OFF. If the switch is in position 0, the load remains ON until the battery is fully discharged. The unit disconnects the battery at a minimum voltage to prevent damage. For Size 1 and 2 units, customized buffering times are available. Size 4 units can be configured via Modbus RTU RS485 or ADELViewSystem software.

Switch position	0	1	2	3	4	5	6	7	8	9
Buffering Time (min.)	0.5	2	5	10	15	20	30	45	60

Refer to Cap. 10.3 for 'Functional Setting' and Note 2 for 'Jumper UPS Disabling' when Time Buffering is enabled.

10 BATTERY CARE

The 'Battery Care' system employs algorithms for rapid charging, charge optimization, flat battery recovery, and real-time diagnostics. It detects faults like short circuits, reverse polarity, and disconnections, signaling them via the Diagnosis LED. The system supports various battery types with selectable charging curves. It continuously tests battery impedance to ensure reliability and safe connection. Battery tests are performed automatically every 60 seconds for connection quality and every 220 minutes for efficiency during Float charge.

10.1 BATTERY CHARGE IN TEMPERATURE COMPENSATED ENVIRONMENT

Connecting an optional temperature sensor probe (via AUX 1 connector, No.11) allows for temperature-compensated battery charging, meeting EN54 fire certification requirements. The probe should be applied directly to the battery.

Temperature Compensation Charge (not for Li-ion):

Fast Charge (Open Lead, AGM, Gel): +/- 5mV/°C per cell (from -8°C to +60°C), +140 to -200 mV/Cell compared to 20°C.
Float Charge (Open Lead, AGM, Gel): +/- 3mV/°C per cell (from -20°C to +60°C), +120 to -120 mV/Cell compared to 20°C.
Fast Charge (Ni-Cd): +/- 2.5mV/°C per cell (from -20°C to +60°C), +100 to -100 mV/Cell compared to 20°C.
Float Charge (Ni-Cd): +/- 2.5mV/°C per cell (from -20°C to +60°C), +100 to -100 mV/Cell compared to 20°C.

Charging stops if the temperature is below -20°C or above +60°C.

10.2 CHARGING CURRENT LIMITER

A trimmer (No.3) allows limiting the maximum charge current from 10% or 20% to 100% of the rated current to protect the battery. Typically, maximum charge current is 10% of the battery's Ah rating.

10.3 BATTERY MANAGEMENT CONFIGURATIONS

The devices are designed to charge most battery types with user-selectable charging curves. Additional curves can be added via a DPY351 or ADELViewSystem. For Sizes 1, 2, 3, 4, preliminary operations involve selecting the battery type using jumpers or DIP switches.

Battery Type Chemistry Selection:

For CBI485A and CBI485A/S (Size 2):

Battery Type	Float charge (Volt/Cell)	Fast charge (Volt/Cell)
Open Lead	2.23	2.40
AGM Low	2.25	2.40
AGM High	2.27	2.40
Gel Battery	2.30	2.40

General Battery Type Chemistry Selection:

Battery Type	Float charge (Volt/Cell)	Fast charge (Volt/Cell)
Open Lead / Vented Lead Acid	2.23	2.40
Sealed Lead AGM Lead Crystal	2.25	2.40
Sealed Lead: VRLA - GEL	2.30	2.40
Ni-Cd	1.4V/cell (12V:10 cells)	1.45V/cell (12V:10 cells)
Ni-Mh	1.5V/cell (24V:20 cells)	/
Li-Ion (4) LiFePo4	3.45V/cell (48V:40 cells)	3.65V/cell (48V:40 cells)
Config Mode (5)	Configure with DPY351 or ADELView System

Functional Setting Details

Various functional settings are available via jumpers and dip switches:

Battery Life test ON: Jumper or dip switch ON enables life test (not for NiCd).
Fast Charge Enable (3): Jumper present enables Fast Charge. Remote Fast Charge enabling is possible via RTCONN cable.
"Start from Battery" (No Input Mains) (1): Allows system to switch ON from battery without mains. Connect to external pushbutton via RTCONN cable. Note: Do not leave jumper in this position to avoid battery discharge.
UPS Disabling (2): When enabled with Time Buffering, 'fast charge' is replaced by 'UPS disabling'. For Size 4, a dedicated jumper exists. Contact closed enables backup UPS (system shuts down after a set time). Contact open inhibits backup function. For Size 3, this function is not enabled if Time Buffering is set to Zero.
Fast Charge: If jumper is present, it enables Fast Charge and triggers 'Cycling Refresh Charging' every 288 hours for 85 minutes at 2.4V/Cell.
Li-Ion Curve: Available from specific releases, configurable via DPY351 or ADELViewSystem.
Config Mode: Allows changing parameters like Float and Bulk voltage via DPY351 or ADELViewSystem.

10.4 DIAGNOSTIC AND CONTROLS

All CBI devices provide diagnostic information via the Diagnosis LED (No.8) and Fault Battery LED (No.7). Specific blink codes indicate various faults, including battery connection issues, overload, internal faults, and communication errors.

Accidental disconnection of battery cables: Switch off output power immediately.
Battery not connected: Alarm within 10 seconds.
Wire connection quality: Checked every 60 seconds during Float charge.
Battery in Open Circuit or Sulphated: Internal impedance test performed every 220 minutes in Float charge.
Reverse Polarity check: Unit is automatically protected.
Battery voltage connections: Checks for correct battery type connection.
End of Charge check: Unit switches to Float charge mode when fully charged.
Battery Cells in short circuit: Detected via algorithms; test performed every 220 minutes.

10.5 PROTECTION FEATURES

Primary side: Internally fused. If the fuse blows, return the device for repair.
Secondary side (Battery and load): Electrically protected against short circuits and overload.
Polarity Inversion: Automatically protected.
Over current and output short circuit: Output current is limited.
Deep discharge: Prevented by automatic battery disconnection at minimum voltage.

10.6 CHARGING CURVE

The unit uses automatic multi-stage operation (IUoU) for fast recharge and recovery of deep-discharged batteries. Five charging phases are indicated by the Diagnosis LED. To maintain output voltage close to nominal, do not disable fast charge (jumper position 6). Fast Charge includes 'Cycling Refresh Charging' every 288 hours.

10.7 THERMAL BEHAVIOUR

For ambient temperatures above 50°C, the output current must be reduced by 2.5% per °C, up to a maximum of 70°C (where output current is 50% of In). The equipment is protected against over-temperature conditions; it will shut down the output and restart when the internal temperature falls within limits.

11 MODBUS (SIZE 3 - 4)

Devices fitted with a Modbus "RTU" communication port operate as slaves in a Modbus network. The hardware interface is RS485.

11.1 ELECTRICAL CHARACTERISTICS (Modbus Slave)

Transmission mode: MODBUS RTU
Electrical Interface: RS485 half-duplex serial line
Baud rate: 4800 / 9600 / 19200 / 38400 bps (default)
Data format: 8 data bits
Parity: even (default) / odd / none
Stop bits: 1 (parity odd/even) / 1 or 2 (parity none)
Slave address: Configurable from 1 to 247
Connector type: RJ45
Cable: wire RJ-45 plug

11.2 HOW TO CONNECT THE DEVICE TO MODBUS

Connection to Modbus is via the AUX2 (No.13) and AUX3 (No.14, Size 4 only) ports.

Daisy Chain connection: Use RJ45 cables (e.g., RJCONN45) to connect up to 32 devices in a daisy chain, with a maximum distance of 1000m. Ensure each slave device has a unique Modbus address. Line termination resistors (120 Ohm) are recommended to prevent signal noise, especially with long cables or high baud rates. The serial Modbus connection uses an RS485 port compliant with EIA/TIA RS485 standard.

Connection to PC: Use RJUSB280 (RS485 to USB adapter, max 2m).

Note: If DPY351 and ADELViewSystem are running simultaneously, the DPY351 must be in 'Viewmode'.

RJ45COUPLER: Allows for T-connections in a daisy chain.

11.2.3 Bus Termination (Size 3)

Fail-safe and line termination resistors for RS-485 are not included and must be installed externally if required.

11.2.4 Bus Termination (Size 4)

Size 4 devices include fail-safe polarization and bus termination. These can be enabled/disabled via front panel dip-switches.

11.3 HOW TO CONFIGURE MODBUS

AUX2 and AUX3 ports are for connecting external devices like RTU, PLC, PC, or DPY351. Refer to ADELSYSTEM's website for detailed 'Modbus specifications' and 'Additional Data' including Modbus tables.

Configuration and Monitoring: Download 'ADELViewSystem' software. The DPY351 unit can be used for monitoring and configuration of multiple ADELSystem devices.

12 ADELBUS CONNECTIONS

ADELBus is ADELSYSTEM's network for interconnecting devices via Modbus and CANBUS protocols. It serves as a power management system for connected equipment. Devices are chained together, forming a local data network. Monitoring panels like the DPY351 can manage ADELBus equipment.

12.1 EVENT BASED COMMANDS

Devices can be programmed to initiate actions on other connected devices through event-based commands.

12.2 HOW TO SET UP AN ADELBUS NETWORK

Connections use standard straight ADELBus cables (CAT5). Twisted pair cable with shield is recommended for CAN connections in noisy environments. Up to 32 ADELBus devices can be connected. Network power can be supplied via the ADELBus cable or through connector 1 (+ and – terminals).

12.3 HOW TO SET ADELBUS NETWORK WITH MORE THAN ONE DPY351 (MODBUS VIEW MODE)

In a Modbus network, only one master is allowed. If multiple DPY351 units are used, all but one must be configured in 'View Mode'. This allows monitoring of the network status, even when a PC acts as the master.

13 PC SHUTDOWN

Refer to the ADELSYSTEM website for PC shutdown information.

14 DIN RAIL MOUNTING

Ensure a minimum vertical and horizontal clearance of 10 cm around the unit for adequate auto-convection. Ambient temperature and load can significantly increase housing temperature.

15 TECHNICAL DATA

For detailed technical data, please download the data sheet from the relevant ADELSYSTEM website.

16 BATTERY BANK

16.1 BATTERY BANK 12V

BATT 123: Battery Bank 1 + Enclosure
BATT 123DIN: Battery Bank 1 + Enclosure DIN
BATT 127: Battery Bank 1 + Enclosure
BATT 127DIN: Battery Bank 1 + Enclosure DIN
BATT 1212: Battery Bank 1 + Enclosure

16.2 BATTERY BANK 24V

BAT1.2VRLA: Battery Bank 2 Batteries + Enclosure DIN
BAT3.4VRLA: Battery Bank 2 Batteries + Enclosure DIN
BAT7.2VRLA: Battery Bank 2 Batteries + Enclosure DIN
BAT12VRLA: Battery Bank 2 Batteries + Enclosure
BTH1.2VRLA: Battery Bank Enclosure (No Battery) DIN
BTH3.4VRLA: Battery Bank Enclosure (No Battery) DIN
BTH7.2VRLA: Battery Bank Enclosure (No Battery) DIN
BTH12VRLA: Battery Bank Enclosure (No Battery)

17 ACCESSORIES

17.1 DIGITAL CABLE

RJCONN45: Cable RJ45/RJ45 (Aux2, Aux3)
RJUSB280: Cable RJ45/USB (Size 3-4)
DPYCONN500: Cable RJ45/RJ45 (Aux2)
RJUSBSD: Connector Cable Shut Down/USB
RJ45COUPLER: RJ45 Three-way "Daisy Chain" connector
ERPJ45003: Connector RJ45/Terminal Block 4-pin
RJ11COUPLER: RJ11 Three-way coupler connector
RJTB280: Connector RJ11/Terminal Block 6-pin

17.2 TEMPERATURE SENSORS

RJTEMP451: Temperature Probe Size: 1,2,3
RJTEMP453: Temperature Probe Size: 1,2,3
RJTEMP111: Temperature Probe Size: 4
RJTEMP113: Temperature Probe Size: 4

17.3 CABLE CONNECTORS

RTCONN: Connector Cable Start from battery

17.4 INTERFACES

MR220: DECOUPLER
MRF102: Electronic circuit Breaker

18 MONITOR & CONTROL

DPY351 CONTROL PANEL
DPY353 DISPLAY PANEL
DPY354 "ADELVIEW SYSTEM" PC SOFTWARE

	ADELSystem CBI Series DC-UPS Operator Manual - Reliable Power Management This operator manual for the ADELSystem 'All In One' DC-UPS series (CBI models) details advanced power management, battery care, connection options, and diagnostic features for industrial and professional applications.
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