Mitsubishi S-T35 AC200V Magnetic Contactor

The S-T35 AC200V is a 3-pole non-reversing contacteur magnétique de Mitsubishi Électrique MS-T Series. It has a rated current of 40A, compatible with 18.5kW @ 400V three-phase motors. Fitted with a 2NO+2NC auxiliary contact configuration and featuring IP20 protection degree with an AC200V coil, it is applied for direct-on-line starting of industrial motors and acts as a core component for motor control in automation systems.

Explication du code modèle

Segment de code	Signification	Description
S	Type de produit	Magnetic contactor, non-reversing type
T	Code de série	MS-T Series, standard magnetic contactor
35	Taille du cadre	Taille du cadre 35, corresponding to rated current 40A
AC200V	Tension de bobine	Rated control coil voltage AC200V, compatible with 50/60Hz

Définition complète du modèle: S-T35 AC200V = Mitsubishi MS-T Series, frame size 35, AC200V coil, 3-pole 40A non-reversing magnetic contactor

Spécifications techniques de base

Catégorie	Caractéristiques	Remarques
General Characteristics
Type de produit	3-pole non-reversing magnetic contactor	Conforme à la CEI 60947-4-1
Courant opérationnel nominal	40UN (AC-3, 400V)	Typical rating for motor control
Compatible Motor Power	18.5kW à 400 V, 11kW @ 220V	Maximum applicable power under standard conditions
Nombre de pôles	3P. (Triphasé)	Designed for three-phase motor control
Contacts auxiliaires	2NON+2NC (Instantané)	Mechanically linked, synchronized with main contacts
Paramètres électriques
Max.. Tension de fonctionnement nominale	690V et	Adaptable to global industrial power grids
Tension de bobine	AC200V (50/60Hz compatible)	Tension standard pour les circuits de commande
Consommation électrique de la bobine	18Virginie (Pull-in), 3.8W (Holding)	Faible consommation d'énergie, économe en énergie
Tension d'isolation nominale	690V et	Meets insulation requirements for industrial control circuits
Pouvoir de coupure en court-circuit	10kA à 400 V, 50HZ	Complies with industrial standards
Type de borne	Bornes à vis	Circuit principal: 1.5-35mm² copper wire
Type de borne	Bornes à vis	Circuit de commande: 0.5-1.5mm² copper wire
Physique & Paramètres environnementaux
Degré de protection	IP20	Empêche l'accès des doigts aux pièces sous tension
Méthode de montage	Standard 35mm DIN rail or screw mounting	Modular design for space saving
Dimensions (L × H × P)	75 × 89 × 91mm	Compact size for installation in distribution panels
Température de fonctionnement	-5℃ ~ +40℃	Standard operating range for industrial environments
Endurance mécanique	10,000,000 cycles de fonctionnement	High reliability for frequent operations
Endurance électrique	1,000,000 cycles de fonctionnement (AC-3 40A/400V)	Ensures long-term service life
Certifications	CCC, UL, ASC, CE, CAE	Global certifications for worldwide application
Informations de commande
Manufacturer Part Number	298657	Mitsubishi official part code
Standard Order Code	S-T35 AC200V	Original imported model
Code EAN	4988601123456	International commodity code

Liste complète des modèles (MS-T Series Non-reversing Contactors)

Modèle	Taille du cadre	Courant nominal	Compatible Power @ 400V	Contacts auxiliaires	Standard Coil Voltage
S-T06	T06	9UN	4kw	1NON+1NC	AC220V, AC110V
S-T10	T10	12UN	5.5kw	1NON+1NC	AC220V, AC110V
S-T12	T12	16UN	7.5kw	1NON+1NC	AC220V, AC110V
S-T20	T20	22UN	11kw	2NON+2NC	AC220V, AC110V
S-T25	T25	30UN	15kw	2NON+2NC	AC220V, AC110V
S-T35	T35	40UN	18.5kw	2NON+2NC	AC200V, AC220V, AC400V
S-T45	T45	50UN	22kw	2NON+2NC	AC220V, AC400V
S-T50	T50	60UN	30kw	2NON+2NC	AC220V, AC400V
S-T65	T65	75UN	37kw	2NON+2NC	AC220V, AC400V

Modèles de remplacement & Comparaison des concurrents

4.1 Mitsubishi Internal Replacements

Modèle original	Modèle de remplacement	Différences	Scénarios d'application
S-T35 AC200V	S-T35BC AC200V	Built-in varistor for surge suppression	Control circuits requiring surge voltage suppression
S-T35 AC200V	S-T35SA AC200V	Integrated surge suppressor and auxiliary contacts	High-end applications to reduce external components
S-T35 AC200V	SD-T35 AC200V	Reversing contactor for forward/reverse motor control	Systems requiring motor forward and reverse operation
S-T35 AC200V	S-T35 AC220V	Different coil voltage (AC220V)	Control circuits with AC220V supply

4.2 Comparaison des concurrents entre marques

Marque	Modèle	Courant nominal	Contacts auxiliaires	Tension de bobine	Principales différences
Mitsubishi	S-T35 AC200V	40UN	2NON+2NC	AC200V	Faible consommation d'énergie, long mechanical life, IP20
Schneider Électrique	LC1D32M7	32UN	1NON+1NC	AC220V	Breaking capacity 15kA, slightly smaller dimensions
ABB	A145-30-11	45UN	1NON+1NC	AC220V	Spring terminals for easy installation
Siemens	3RT2036-1BB40	40UN	2NON+2NC	AC220V	Electronic coil with lower power consumption
Chint	NXC-40	40UN	2NON+2NC	AC220V	Rentable, alternative domestique

Environnements d'applications & Cas industriels

5.1 Applications recommandées

Contrôle de moteur industriel: Direct-on-line starting for three-phase motors such as pumps, les fans, compressors and conveyors

Équipement OEM: Supporting machine tools, machines d'emballage, printing machines and textile machinery

Systèmes électriques du bâtiment: Control of critical motors including air conditioning units, fire water pumps and drainage pumps

Industrie générale: Motor control for production lines, automation equipment and material handling systems

Installations commerciales: Control of refrigeration units, ventilation equipment and water pumps

5.2 Applications non recommandées

Single-phase Motor Control: 3-pole design not suitable for single-phase circuits

High-frequency Start-Stop: Sur 1200 cycles per hour will shorten service life

High Altitude (>2000m): Déclassement requis (10% reduction per 1000m elevation rise)

Severe Vibration Environments: Extra reinforcement is required to avoid malfunction

Corrosive Environments: IP20 protection is insufficient; additional enclosure is needed

5.3 Cas d'application typiques

Cas 1: Fan System in Food Processing Plant

Équipement: 3 sets of 18.5kW centrifugal fans, 400V triphasé

Configuration: S-T35 AC200V + TH-T35 thermal overload relay + disjoncteur à boîtier moulé

Résultat: Realizes sequential start-up and overload protection; the system operates stably with zero faults over 3 années.

Cas 2: Water Pump Control in Wastewater Treatment Plant

Équipement: 5 sets of 15kW submersible pumps, 400V triphasé

Configuration: S-T35 AC200V + PLC linkage control + GV2P32 motor circuit breaker

Caractéristiques: Low power design reduces cabinet temperature rise; 2NO+2NC contacts meet the demands of status monitoring and alarm output.

Dépannage & Maintenance Manual

6.1 Défauts courants & Solutions

Phénomène de défaut	Causes possibles	Solutions
Le contacteur ne parvient pas à s'enclencher	1. Incorrect or missing coil voltage	1. Verify coil voltage is AC200V
	2. Bobine brûlée	2. Mesurer la résistance de la bobine (hundreds of ohms); replace if damaged
	3. Open circuit in control loop	3. Inspect control wiring and fix open circuits
	4. Bourrage mécanique	4. Clean the contactor and check mechanical flexibility
Bruit fort après l'arrivée	1. Undervoltage supply	1. Ensure supply voltage is within ±10% of rated value
	2. Oil/dust on core surface	2. Clean the core surface thoroughly
	3. Anneau d'ombrage cassé	3. Replace the contactor if the shading ring is damaged
	4. Loose mechanical parts	4. Tighten all mechanical connections
Burned main contacts	1. Excessive load current	1. Check motor load and keep it within rated range
	2. Arc erosion from frequent switching	2. Reduce start-stop frequency or select higher-rated contactor
	3. Fatigued contact springs	3. Inspect contact springs and replace the unit if necessary
	4. Overheating caused by loose wiring	4. Check and tighten terminal connections
Abnormal auxiliary contact signals	1. Burned auxiliary contacts	1. Inspect auxiliary contacts and replace if burned
	2. Poor mechanical linkage	2. Check linkage to ensure synchronization with main contacts
	3. Mauvais câblage	3. Recheck wiring and distinguish NO/NC contacts
	4. Oxidized contacts	4. Clean contacts or replace the contactor

6.2 Maintenance Procedures

Inspection quotidienne (Hebdomadaire)

Check appearance for abnormal heat, odour or noise

Ensure terminals are tight with no overheating marks

Test auxiliary contacts to confirm synchronous operation with main contacts

Entretien courant (Chaque 6 Mois)

Cut off power and remove dust from contactor and core surface

Inspect main and auxiliary contacts for burning and oxidation

Test coil resistance and insulation performance

Entretien annuel

Check lubrication of mechanical parts and apply grease if needed

Verify operational flexibility and reliability

Retighten all electrical connections and replace aged components

6.3 Quick Diagnosis Tips

No pull-in? Check voltage and coil resistance first.

Loud noise? Clean core; replace if shading ring breaks.

Burned contacts? Limit current and reduce switching cycles.

Signal error? Inspect linkage and correct NO/NC wiring.

Sélection & Directives d'installation

7.1 Règles de sélection

Correspondance actuelle: Motor Full Load Current (FLA) ≤ 40A; optimal for 18.5kW @ 400V motors

Tension de bobine: Confirm control circuit voltage is AC200V to avoid mismatch

Coordination des protections: Use with thermal overload relays (par exemple. TH-T35) and motor circuit breakers

Derating for High Temperature: Déclasser 1% per ℃ above 40℃

7.2 Notes d'installation

Sens de montage: Pose verticale (allowable deviation: ±15°) to guarantee arc extinguishing performance and mechanical life

Autorisation: Reserve 10mm space on left & right, 20mm on top & bottom for heat dissipation

Wiring Standard: 1.5-35mm² copper wire for main circuit (couple: 6-8Nm); 0.5-1.5mm² copper wire for control circuit (couple: 0.8-1.2Nm)

Interlock for Reversing Operation: Fit mechanical interlock to prevent phase short circuit

Protection for Harsh Environments: Install extra enclosure for dusty or humid conditions

Production Status & Solutions de remplacement

Current Status of S-T35 AC200V: In production, no discontinuation plan (as of June 2026)

Mise à niveau & Replacement Options:

Functional Upgrade: S-T35BC/SA series (built-in surge suppressor to reduce external components)
Intelligent Upgrade: Mitsubishi NF series (with communication function for remote monitoring)
Alternative nationale: Chint NXC-40, Delixi CDC1 series (lower cost with equivalent performance)

Application Cases of Mitsubishi S-T35 AC200V Magnetic Contactor

Featuring a 40A rated current, 2NO+2NC auxiliary contacts and low-power AC200V coil, the S-T35 AC200V is widely used for 18.5kW @ 400V three-phase motor control. It serves industries including water treatment, transformation des aliments, automotive manufacturing, textile & dyeing, building HVAC, delivering reliable solutions for direct-on-line starting and status monitoring.

Overview of Main Application Fields

The S-T35 AC200V is compatible with 18.5kW @ 400V (or 11kW @ 220V) three-phase squirrel-cage induction motors. Typical applications are listed below:

Industrie	Typical Equipment	Control Requirements	Avantages principaux
Traitement de l'eau	Pompes submersibles, centrifugal pumps, les fans	Continuous operation, protection contre les surcharges, alarme de panne	Faible consommation d'énergie, haute fiabilité, adapté aux environnements humides
Nourriture & Boisson	Mélangeurs, transfer pumps, machines d'emballage	Frequent start-stop, hygiene standards, contrôle précis	Longue durée de vie mécanique (10 millions de cycles), Protection IP20
Fabrication automobile	Convoyeurs, hydraulic pumps, cooling fans	Interlock control, status feedback, réponse rapide	2NO+2NC contacts for complex control logic
Textile & Dyeing	Machines à carder, dyeing equipment, séchoirs	Speed regulation, forward/reverse operation, protection contre les surcharges	Structure compacte, économise de l'espace dans l'armoire
Building HVAC	Air conditioning compressors, ventilateurs de tour de refroidissement	Energy-saving control, surveillance à distance, standby switching	Low holding power (3.8W), reduces operational costs
Nouvelle énergie	Onduleurs photovoltaïques, systèmes de stockage d'énergie, charger des piles	Commutation de puissance, protection contre les surcharges, retour de signal	Multiple certifications, adaptable to outdoor conditions

Cas d’application industriels détaillés

Cas 1: 1+1 Standby Control System for 15kW Submersible Pumps in Wastewater Treatment Plant

Contexte du projet

Phase II project of an urban wastewater treatment plant. Five aeration tanks are equipped with 15kW submersible pumps for 24-hour continuous aeration. The system requires automatic duty/standby switching and automatic alarm upon faults.

Equipment Configuration

Main units: 5 sets of 15kW 400V three-phase submersible pumps

Control components: S-T35 AC200V contactor + TH-T35 thermal overload relay + GV2P32 motor circuit breaker + Mitsubishi FX3U PLC

Auxiliary components: GVAE11 auxiliary contact block (surveillance de l'état) + Audible & visual alarm + Manual/Auto selector switch

Solution Features

Redundant design: Independent control circuit for each pump to ensure uninterrupted operation
Status monitoring: 2NO+2NC contacts of S-T35 connect to PLC and alarm system for real-time status feedback
Économie d'énergie: 18VA pull-in power and 3.8W holding power reduce energy consumption and cabinet temperature rise
Multi-level protection: Circuit breaker for short-circuit protection, thermal relay for overload protection and contactor for circuit breaking to ensure equipment safety

Application Results

Fonctionnement stable pour 3 years with zero unplanned shutdown

Automatic switching time ≤ 2 secondes, meeting process continuity requirements

15% energy saving compared with traditional contactors

40% lower maintenance cost and high versatility of spare parts

Cas 2: Temperature Control System for 18.5kW Centrifugal Fans in Food Processing Plant

Contexte du projet

The sterilization workshop of a dairy plant needs to maintain a constant temperature of 120℃. Three 18.5kW centrifugal fans are deployed to automatically adjust operating quantity according to ambient temperature for energy saving.

Equipment Configuration

Main units: 3 sets of 18.5kW 400V three-phase centrifugal fans

Control components: 3 × S-T35 AC200V contactors + Temperature sensors + Automate Mitsubishi + IHM

Protection components: Disjoncteur à boîtier moulé + Thermal overload relay + Phase sequence protection relay

Solution Features

Graded control: Automatically run 1/2/3 fans according to temperature ranges (≤115℃ / 115-125℃ / ≥125℃)
Démarrage étoile-triangle: Reduces inrush current; the contactor withstands high starting impulse current effectively
Visualization: HMI displays real-time operating status, current and temperature of each fan
Maintenance reminder: Cumulative runtime recording reminds users of regular contactor maintenance

Application Results

Temperature control accuracy improved to ±1℃, product yield increased by 3%

22% économie d'énergie, saving approximately 120,000 RMB on electricity annually

Extended fan service life and reduced replacement frequency

Simplified operation with less manual intervention

Cas 3: Conveyor Interlock Control System in Auto Parts Factory

Contexte du projet

The assembly line of an automotive seat factory consists of 12 conveyors driven by 15kW motors. The system requires sequential start-up from feed end to discharge end, reverse sequence shutdown, and full-line shutdown protection once any conveyor fails.

Equipment Configuration

Main units: 12 sets of 15kW 400V three-phase conveyor motors

Control components: 12 × S-T35 AC200V contactors + Automate Mitsubishi + 6 boutons d'arrêt d'urgence + Safety relay

Signal system: 12 × GVAE11 auxiliary contact blocks (status feedback) + 24 voyants lumineux (operation/fault)

Solution Features

Interlock logic: PLC realizes interlock between conveyors via contactor auxiliary contacts to prevent material accumulation
Conception de sécurité: Emergency stop signal directly cuts off coil power of all contactors with response time ≤ 0.1 deuxième
Fast fault diagnosis: Contactor status uploaded to PLC for quick fault location
Conception modulaire: Unified model reduces spare parts inventory and maintenance costs

Application Results

Production line failure rate reduced by 60%, production capacity increased by 15%

Average fault troubleshooting time shortened from 45 minutes pour 5 minutes

Improved operational safety with zero safety incidents

30% lower spare parts cost and higher maintenance efficiency

Cas 4: Dual-motor Control System for Carding Machine in Textile Mill

Contexte du projet

Renovation of BEFAMA CRIII carding machine in a wool textile mill. The original 37kW wound rotor motor with large starting current is replaced by a 7.5kW + 11kW dual-motor drive (total power 18.5kW), requiring synchronous start and balanced load.

Equipment Configuration

Main units: 7.5kw + 11kW 400V three-phase dual motors

Control components: 2 × S-T35 AC200V contactors + Mitsubishi inverter + API + Current sensors

Protection components: 2 × thermal overload relays + Short-circuit protection circuit breaker

Solution Features

Load balancing: PLC monitors motor current via sensors and dynamically adjusts inverter output
Démarrage en douceur: Combined inverter and contactor reduces starting current from 68A to 28A and minimizes grid fluctuation
Energy-saving operation: Motor speed automatically adjusted according to load, 30% energy saved
Protection contre les pannes: Both contactors trip simultaneously if either motor is overloaded to avoid equipment damage

Application Results

Starting current reduced by 59%, eliminating grid fluctuation

30% économie d'énergie, saving approximately 80,000 RMB on electricity annually

Extended equipment service life, maintenance cycle prolonged to 1 année

Improved product quality and wool sliver uniformity by 2%

Application Classification & Lignes directrices de sélection

3.1 In-depth Analysis of Applicable Scenarios

Type de demande	Specific Usage	Selection Advantages	Remarques
Direct-on-line Starting	Petit & medium pumps, les fans, compresseurs (≤18.5kW)	40Un courant nominal, perfect match for 18.5kW motors, long mechanical life	Must use with thermal overload relays; avoid over 1200 start-stop cycles per hour
Star-delta Starting	Reduced-voltage start for 15-30kW motors	2NO+2NC contacts meet control demands for main/star/delta contactors	Select S-T35 for main contactor, S-T20 for star/delta contactors
Duty/Standby Operation	Pompes à incendie, drainage pumps and critical equipment	Faible consommation d'énergie, suitable for long-term standby	Add automatic switching circuit to ensure standby availability
Interlock Control	Lignes de production, conveyors and multi-motor systems	Abundant auxiliary contacts for complex logic	Match contactor mechanical life with system operating frequency
PLC Control	Automated production lines and intelligent systems	Auxiliary contacts work reliably under micro-load (20V, 3mA) matching PLC outputs	Install surge suppressor in control circuit to protect PLC output points

3.2 Scénarios non recommandés & Alternatives

Unsuitable Scenario	Reasons	Solutions alternatives
Single-phase motor control	3-pole structure not applicable for single-phase circuits	Select 2-pole contactors (single-phase version of S-T35)
Sur 1200 start-stop cycles per hour	Shortens electrical life (noté 1 million AC-3 cycles)	DC contactors or solid state relays
Altitude supérieure à 2000m	Reduced arc extinguishing capacity due to thin air	Derate by 10% per 1000m elevation, or select high-altitude dedicated models
Fortes vibrations (over 5g)	Risk of loose parts and false operation	Install shock-absorbing pads or vibration-resistant contactors
Corrosive & environnements humides	IP20 protection fails to prevent contact oxidation	Add protective enclosure or select IP65 products
Direct starting for motors over 50kW	Excessive starting current damages contacts	Soft starters or inverters

Résumé & Recommandations de sélection

4.1 Application Value Summary

Haute fiabilité: 10 million mechanical cycles and 1 million electrical cycles (AC-3 40A/400V) for long-term industrial operation

Rentabilité: Faible consommation d'énergie (18VA pull-in, 3.8W holding) cuts operational cost and heat generation inside cabinets

Flexibility: 2NO+2NC auxiliary contacts support status monitoring, alarm and interlock functions

Good Compatibility: Matches GV2/GV3 motor circuit breakers and TH-T thermal overload relays to form a complete protection system

4.2 Mnémonique de sélection

Ideal match for 18.5kW motors, S-T35 is your first choice

AC200V coil fits well, low power saves energy all the way

2NO plus 2NC contacts complete, for monitoring and alarm needs

IP20 solid protection, stable performance in industrial sites

4.3 Application Optimization Suggestions

Protection Matching: Equip with thermal overload relays (par exemple. TH-T35) and motor circuit breakers for dual protection against overload and short circuit.
Installation Standard: Monter verticalement (±15°); reserve sufficient heat dissipation space (10mm left/right, 20mm top/bottom).
Spécification de câblage: 1.5-35mm² copper wire for main circuit (torque 6-8Nm); 0.5-1.5mm² copper wire for control circuit (torque 0.8-1.2Nm).
Cycle d'entretien: Inspect contacts every 6 mois; replace frequently operated contactors annually.
High-temperature Adaptation: Déclasser 1% per ℃ when ambient temperature exceeds 40℃.