ABB Thermal Overload Relay TA110DU110

The TA110DU110 is a classic 3-pole releu termic de suprasarcina din ABB TA series, delivering integrated protection for three-phase asynchronous motors with a rated current range of 80~110A. Adopting the inverse-time tripping principle of bimetallic strips, this relay comes standard with phase-loss protection and automatic ambient temperature compensation, with a trip class of Class 10A. It can be directly plugged onto ABB A/AE/AF95~110 series contactors or mounted independently on DIN rails. Equipped with switchable manual/automatic reset modes and one normally open (NU) plus one normally closed (NC) auxiliary signal contact, it serves as a standard protective component for industrial motor control circuits. Widely applied to power loads such as fans, pompe de apa, compressors and conveyor lines, it effectively prevents winding burnout accidents of motors caused by overload, locked rotor and phase loss.

Model complet: `TA110DU110`

FATA: General series code for ABB thermal overload relays, representing the family of electrothermal protective relays
110: Evaluarea curentului de cadru, indicating the maximum rated frame current of 110A for this product
DE: Codul tipului funcției, standing for standard specification featuring 3-pole protection, detectarea pierderii de fază, ambient temperature compensation and direct mounting onto contactors
110: Upper limit of current setting, corresponding to an adjustable current range of 80A ~ 110A

Specificații tehnice de bază

Categoria parametrilor	Element de parametru	Specificație detaliată
Main Circuit Characteristics	Tensiune nominală de izolație Ui	690V și / 440În DC
	UL/CSA Rated Operational Voltage	600V și
	Interval de curent reglabil	Continuously adjustable from 80A to 110A
	Clasa de călătorie	Clasa 10A (standard motor protection class)
	Numărul de poli	3 stâlpi, full 3-pole protection
	Protecție împotriva pierderii de fază	Standard incorporat; accelerates tripping under three-phase unbalance
	Compensarea temperaturii	Sprijinit; protection accuracy remains unaffected within -25℃ ~ +55℃ ambient temperature
Contacte auxiliare	Configurare contact	1 NU + 1 NC, izolat electric
	Conventional Thermal Current Ith	5O
	Rated Contact Capacity	AC250V 3A; DC24V 5A
Mecanic & Montare	Metoda de montare	Direct mounting on contactors / independent DIN rail mounting
	Contactoare compatibili	Series A95, A110, AE95, AE110, AF95, AF110
	Metoda de cablare	Screw-clamp terminals
	Overall Weight	Aproximativ. 0.76kg
	Modul de resetare	Switchable manual/automatic reset; supports remote reset expansion
Mediu & Certificari	Temperatura ambiantă de funcționare	-25℃ ~ +55℃
	Temperatura de depozitare	-40℃ ~ +70℃
	Ingress Protection Rating	IP20
	Compliance Certifications	CE, UL, CSA, CCC, GL (Germanischer Lloyd Marine Certification)
	Standarde conforme	IEC 60947-4-1, ÎN 60947-4-1

Cross Reference of Models within the Same Series

Full Specifications of TA110DU Frame

Model complet	Interval de curent reglabil	Puterea motorului compatibil (380V)	Matching Contactors
TA110DU-65	50 ~ 65A	30kW	A95/AE95/AF95
TA110DU-80	60 ~ 80A	37kW	A95/AE95/AF95
TA110DU-90	66 ~ 90A	45kW	A110/AE110/AF110
TA110DU-110	80 ~ 110A	55kW	A110/AE110/AF110

Comparison of Adjacent Frame Series

Series Model	Curentul nominal al cadrului	Maximum Adjustable Current	Scenarii aplicabile
TA110DU	110O	110O	Mediu & small power motors (30~55kW)
TA200DU	200O	200O	Mediu & large power motors (75~110kW)
TA450DU	450O	450O	High-power heavy-duty motors (132~250kW)

Scenarii tipice de aplicare

Standard Motor Starter Protection Circuit: Combined with ABB A/AF series contactors to form electromagnetic starters, connected in series to the main circuit of three-phase motors to realize protection against motor overload, locked rotor and phase loss. It is the standard protection solution for general power equipment including fans, pompe de apa, air compressors and machine tool spindles.
MCC Motor Control Centers: Served as standard protection units for motor feeder circuits in drawer cabinets and fixed cabinets, integrated with contactors to realize integrated motor start-stop control and protection.
Transportor & Logistics Sorting Systems: Matched with roller motors and sorting drive motors, adapting to frequent start-stop and load fluctuation working conditions of production lines, and preventing motor aging and burnout caused by long-term overload.
Central Air Conditioning & Refrigeration Units: Protect refrigeration power equipment such as compressors and cooling tower fans, suited to the refrigeration industry’s characteristics of severe load fluctuations and seasonal high-load operation.
Support for OEM Complete Equipment: Widely matched with industrial machinery including packaging machinery, cauciuc & plastic machinery and metallurgical auxiliary equipment. As standardized motor protection components, it meets electrical safety specification requirements for equipment factory delivery.

Common Troubleshooting Matrix

Fenomen de eroare	Root Cause Analysis	Soluții pas cu pas
Relay falsely trips during normal motor operation	1. Low current setting value, lower than the motor rated current	1. Check the motor rated current and adjust the setting knob to the corresponding rated value
	2. Excessively high ambient temperature exceeding compensation range	2. Improve cabinet heat dissipation and avoid direct sunlight or heat source radiation
	3. Severe current deviation induced by three-phase voltage unbalance	3. Measure three-phase currents to troubleshoot hidden risks of voltage unbalance or phase loss
	4. Overlong motor startup time exceeding withstand limit of Class 10 clasa de excursie	4. Replace with thermal overload relays of Class 20 sau Clasa 30 for heavy-load startup applications
Relay fails to trip under motor overload or locked rotor	1. Excessively high current setting value, far higher than the motor rated current	1. Recalibrate the setting value to strictly match the motor rated current
	2. Loose main circuit wiring terminals leading to excessive contact resistance	2. Tighten main circuit terminals and troubleshoot overheating & oxidation issues
	3. Stuck relay mechanical mechanism and failed tripping assembly	3. Cut off power and manually test the flexibility of the tripping mechanism; replace the module if jamming occurs
Protection does not activate upon phase loss fault	1. Wrong three-phase incoming wiring with incomplete connection to relay main circuit	1. Verify L1/L2/L3 three-phase wiring to ensure all phases are reliably connected
Protection does not activate upon phase loss fault	2. Aging and failure of internal bimetallic components	2. Artificially simulate phase loss to test protection function; replace the relay if function fails
Abnormal or no output of auxiliary contact signals	1. Auxiliary contact load exceeds rated capacity, resulting in contact burnout	1. Confirm load current does not exceed contact rating; add intermediate relays for current amplification if necessary
	2. No reset after tripping, contacts remain in fault state	2. Manually or automatically reset the relay after troubleshooting root fault causes
	3. Poor contact due to contact oxidation	3. Measure contact on-off resistance; replace the module if poor contact exists

Definiția terminalului & Descrierea funcției

The TA110DU110 adopts industry-standard terminal numbering rules, divided into two parts: main power circuit and auxiliary control circuit. All terminals are front-mounted screw-clamp type with all wiring operations accessible from the front side.

Main Circuit Terminals (Three-Phase Power Circuit)

Marca terminal	Tip terminal	Instrucțiuni de cablare
1L1, 3L2, 5L3	Terminale de intrare	Upper-side input, connected to output terminals of contactor main contacts, corresponding to three-phase power L1/L2/L3
2T1, 4T2, 6T3	Terminale de ieșire	Lower-side output, directly connected to stator windings of three-phase asynchronous motors

Note: The three-phase main circuit has no polarity requirement, yet each phase must be connected in one-to-one correspondence without cross-phase misconnection. When directly mounted on contactors, the main circuit is automatically conducted via plug-in copper bars with no extra power wiring required.

Auxiliary Circuit Terminals (Controla & Signal Circuit)

Marca terminal	Tip de contact	Descrierea funcției	Typical Wiring Purpose
95 – 96	În mod normal închis (NC)	Conductive under normal operating conditions; opens upon tripping caused by overload/phase loss	Connected in series to contactor coil control circuit to cut off power supply to the contactor and stop the motor upon faults
97 – 98	Deschis normal (NU)	Disconnected under normal operating conditions; closes upon tripping caused by overload/phase loss	Connected to sound-light alarm circuits or PLC digital input points for fault signal upload and alarm notification

The auxiliary contacts are electrically isolated with no electrical connection to the main circuit and a conventional thermal current of 5A. Intermediate relays are recommended for series connection to expand capacity and prevent contact burnout when controlling high-power loads.

Typical Wiring Schemes
Direct Mounting Wiring on Contactor (Cel mai des folosit)

This is the standard application method for TA110DU110. It is directly plugged onto the top of ABB A95/A110/AF95/AF110 series contactors. The main circuit is automatically connected through internal plug-in connectors, with only the control circuit requiring external wiring:

Three-phase power passes through a circuit breaker and connects to contactor main incoming terminals L1/L2/L3
After the thermal overload relay is directly mounted on the contactor, the main circuit is automatically conducted without extra power wiring
One end of the control power supply passes through stop and start buttons and connects to contactor coil terminal A1
The 95-96 NC contact of the thermal relay is connected in series to the live wire of the contactor coil circuit to realize automatic motor shutdown under overload
The 97-98 NO contact of the thermal relay is paralleled with fault indicator lights or connected to PLC DI points for fault alarming
Independent DIN Rail Mounting Wiring

Independent rail mounting is adopted for separate installation or matching with contactors of other brands:

Contactor output terminals L1/L2/L3 are connected to thermal relay incoming terminals 1L1/3L2/5L3 via power cables
Thermal relay outgoing terminals 2T1/4T2/6T3 connect to motor three-phase terminals
The control circuit follows the same wiring logic as the direct mounting scheme, with the 95-96 NC contact wired in series into the contactor coil circuit

Măsuri de precauție pentru cablare:

The cross-sectional area of main circuit cables shall match the 110A rated current; 25mm² copper cables are recommended

1~1.5mm² control cables are suggested for auxiliary control circuits

Reliable earthing is mandatory to guarantee personal and equipment safety

III. Parameter Comparison Table of Cross-Brand Equivalent Models

Below is a parameter comparison of mainstream thermal overload relays of the same current range from Siemens and Schneider Electric, for reference during alternative selection:

Element de comparație	ABB	Schneider Electric	Siemens
Model complet	TA110DU110	LRD3365C	3RU5146-4MB1
Interval de curent reglabil	80 ~ 110A	80 ~ 104A	80 ~ 100A
Curentul nominal al cadrului	110O	115O	140O
Clasa de călătorie	Clasa 10A	Clasă 10	Clasă 10
Numărul de poli	3 stâlpi	3 stâlpi	3 stâlpi
Configurarea contactelor auxiliare	1NU + 1NC (izolat electric)	1NU + 1NC (izolat electric)	1NU + 1NC (izolat electric)
Protecție împotriva pierderii de fază	Standard incorporat	Standard incorporat	Standard incorporat
Ambient Temperature Compensation	Sprijinit (-25℃~+55℃)	Sprijinit (-20℃~+60℃)	Sprijinit (-20℃~+60℃)
Modul de resetare	Switchable manual/automatic	Switchable manual/automatic	Switchable manual/automatic
Compatible Contactor Series	A95~A110, AF95~AF110	LC1D95~LC1D115	3RT5045~3RT5046
Metoda de montare	Direct mounting on contactor / DIN rail	Direct mounting on contactor / DIN rail	Direct mounting on contactor / DIN rail
Compliance Certifications	CE, UL, CCC, GL	CE, UL, CCC	CE, UL, CCC