ZYMW2-1600
YUMONN
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Application Scope:
The W2 series air circuit breaker (hereinafter referred to as "breaker") is suitable for AC 50Hz circuits with rated voltages of 400V and 800V, and rated currents up to 1600A. It is primarily used to distribute electrical energy and to protect circuits and power-supply equipment from overload, under-voltage, short-circuit, and single-phase earthing faults. With intelligent and selective protection functions, the breaker is ideal for use in power stations, factories, mines (for 800V), and modern high-rise buildings, particularly in the distribution systems of intelligent buildings.
This breaker conforms to IEC 60947-2 and GB 14048.2 standards. The entire series has passed CCC certification and CB certification from SEMKO.
Temperature: -5℃ to +40℃; 24-hour average not to exceed +35℃.
Elevation: Installation altitude should not exceed 2000m.
Humidity: At +40℃, relative humidity should not exceed 50%. Higher humidity allowed at lower temperatures. Max 90% relative humidity when average temperature is +25℃ in the most humid month.
Dew: Consider the effect of dew due to temperature changes.
Pollution Grade: Grade 3.
Installation: Follow manual instructions. Vertical inclination should not exceed 5°.
Installation and usage:
Installation
1. Unload the Breaker:
Pull out the handle from under the drawer base.
Insert it into the hole on the plastic cover under the drawer base crossbeam.
Turn the handle anticlockwise; the breaker body will slide out.
When the guide-rod points to the separated position and the handle can't be rotated further, pull out the handle.
Grasp the aluminum handle on the drawer base, pull out the breaker body, and remove it from the base.
Remove the base from the soleplate and clean any debris inside the drawer base.
2. Check Insulation Resistance:
Use a 500V megger to check the insulation resistance.
Resistance should not be less than 20MΩ at 20℃ ± 5℃ and 50% to 70% relative humidity. If lower, dry the breaker.
3. Install the Breaker:
3.1 Fixed-Type:
Place the breaker onto the installation bracket and secure it.
Connect the main circuit bus wire to the fixed-type circuit breaker bus wire.
3.2 Drawer-Type:
Place the breaker body onto the guide rail of the drawer base.
Insert the handle into the installation hole and turn it clockwise until a 'click' is heard, indicating the breaker body is connected.
Connect the main circuit bus wire to the drawer base bus wire.
ZYMW2 Moulded Case Circuit Breaker | 1600 | |
Rated ultimate short circuit Breaking capacity (KA) | Icu=65kA 400V 20kA 800V Ics=lcw=50kA 400V 15kA 800V | |
Rated current In(A) | 200A 400A 630A 800A 1000A 1600A | |
Number of poles | 3P/4P | |
Rated voltage Ue(V) | 400V/800V | |
Rated insulation voltage Ui(A) | 1000V | |
Rated current of N-pole IN(A) | 50%In 100%In | |
Fixed disconnection time | 23~32ms | |
Intelligent Controller | Standard type(M) ● ● ● ● ● | |
Communication type(H) | ||
Operation Performance-Nce | Electrical Life 500 | |
Mechanical Life | Non-maintenance 2500 | |
Maintenance 10000 | ||
Connection Pattern Horizontal Vertical |
Kind Instructions: This product has a drawer type with a three position locking device for "seperation", "testing", and "connection" to prevent users from misoperating when in the corresponding indicated position, the red button will pop up and cannot proceed to the next step without resetting.
Control unit
The intelligent controller is the core part of the circuit breaker. It is classified into two types: standard and communication. The latter has the additional function of communication compared to the former.
Over-current protection characteristic
Long-time delay over-current protection ,inverse time-delay acting characteristic.
Rated Current Error Current Acting time Time Rang(Irl) error | ||
0.4~1 ±10% | 1.05Ir1 No acting after two hours | |
1.3Ir1 Acting within one hour | ||
1.5Ir1 15 30 60 120 240 480 ±10% | ||
2.0Ir1 8.4 15.9 33.7 67.5 135 270 ±10% |
Short-time delay over-current protection acting characteristic
Inverse time-delay acting at low-multiple current, and 12Ts=(8Irl)2ts, where is the actual current, Ts is the actual acting time, and ts is the setting delay time. When current exceeds 8Irl, automatic conversion to definite time-delay acting occurs. When short-time delay is definite time-delay, low-multiple current can also be definite time-delay characteristic.
Rated Error Setting delay time Return time time error Current |
Lr2 Ts(s) (s) |
1~15 ±10% 0.1 0.2 0.3 0.4 0.06 0.14 0.23 0.35 ±15% |
Instantaneous action characteristic
Rated current(lr3) Error |
1.0In~50/75kA ±15% |
Test
panel keys | Check the time-current characteristic and tripping Performance mechanism of intelligent controller |
Check the time-current characteristic of Non-tripping intelligent controller |
Earthing fault protection (four types)
Select W2 three-pole circuit breaker (out-connected current transformer not appended )for three-phase three-wire system.
Earthing fault protection signal is the vector sum of three-phase current.
Protection characteristic is definite time-delay protection.
Select W2 four-pole circuit breaker for three-phase four-wire system
Earthing fault protection signal is the vector sum of three-phase current and N-pole current protection
characteristic is definite time-delay protection
Select W2 three-pole circuit breaker for three-phase four-wire system
Connecting neutral-pole current transformer for earth fault protection(connect25#, 26#terminals )
Connecting neutral-pole current transformer for earth fault protection (connect25#,26#terminals)
Earth fault protection signal is vector sum of three-phase current and N pole current
Protection characteristic is definite time-delay protection
Select W2 three-pole circuit breaker for TN-S system.
Connecting current transformer for earth fault protection (connect 25#, 26#terminals)
Protection characteristic is definite time-delay protection.
Characteristic of monitoring with load
Pattern 1: it can control two-circuit load ,send out contact signal and break sub-load when the
operating current surpasses super-overload long time-delay inverse time-delay setting current lu ,thus
ensure the power supply of main system.
Pattern2: Only control one-circuit load ,when operating current surpasses,llc1setting value ,signal is
sent out to break the sub-load ,thus ensure the normal power-supply of main system .if the main
current falls to llc2 setting value after reaking lasts for some time , comtroller can make broken load
and recover the supply of whole system.
Single-phase earthing fault protection characteristic
Single-phase earthing fault means the metal-property earthing protection when fault current exceeds
several hundred amperes ,which is generally applied to direct center earthing system.
When earthing fault protection is definite time-delay acting, the setting is as follows:
Knowledge of accessories
Shunt release
Except manual-operated to directly break the circuit breaker for special products
It can be remote-operated to break the circuit breaker
Characteristic
Rated control power voltage Us(V) | AC400, AC230, AC127 | DC220, 110 |
Action voltage(V) | (0.7~1.1)Us | |
Power consumption | 40VA | 40W |
Breaking time | Less than 30Ms |
Forbid making the power for long time to avoid being damaged.
Under-voltage release
Under-voltage release
Users can select it or not if need.
Under-voltage release is used to break circuit breaker and protect the equipment(such as motor) when under-voltage or voltage-failure happens, or automatically break the under-voltage circuit of power supply system, improves the reliability and safety (such as dual-circuit).
Its action-pattern is classified into instantaneous action and time-delay action.
Delay-time of under-voltage time-delay release is classified into three types of 1s, 3s and 5s, and the accuracy is ±15%. Within 1/2 time-delay scope, Circuit breaker don't break when power voltage recovers and exceeds 85% Ue.
Characteristic
Rated control power voltage Ue(V) | AC400, 230, 127 | DC220, 110 |
Action voltage(V) | (0.35~0.7)Ue | |
Reliable switching voltage(V) | (0.85~1.1)Ue | |
Reliable non-switching voltage(V) | V/0.35Ue | |
Power consumption | 48VA(W) |
Make the power before operating the circuit breaker.
Closing electromagnet
After motor finishes storing energy, closing electromagnet can instantly release spring-force of operation mechanism, and quickly close the circuit breaker.
Characteristic
Rated control power voltage Ue (V) | AC400, 230, 127 | DC220、110 |
Action voltage(V) | (0.85~1.1)Ue | |
Power consumption | 48VA | 40W |
Storing-energy time | Less than 70Ms |
Forbid making the power for long time to avoid being damaged.
Motor-driven energy-storage mechanism
With automatic re-storing energy function ,which is convenient for switc-hing duplicate power supply.
Characteristic
Rated control power voltage Ue (V) | AC400, 230 | DC220, 110 |
Action voltage(V) | (0.85~1.1)Ue | |
Power consumption | 192VA | 192W |
Storing-energy time | Less than 5s |
Forbid making the power for long time to avoid being damaged.
Auxiliary contact
Standard model: 4-NO(normal open) and 4-NC(normal closed)
Special models: 3-NO & 5-NC, 5-NO & 3-NC, 6-NO & 2-NC, 2-NO & 6-NC
Rated value
Rated voltage(V) | Rated heating current | th(A) | Rated control capacity |
AC230 | 6 | 300VA |
AC400 | 6 | 300VA |
DC220 | 6 | 60W |
Break the locking device
Breaking the locking device will cause the breaking button to lock in the pressed position, preventing the breaker from closing.
For drawer-type breakers:
When the breaker is in the breaking position, pull out the lock rod.
Lock the breaker with a padlock. After locking, the breaker cannot reach the "test" or "making" positions (padlock provided by the user).
Locks and keys are provided as followes:
Each circuit breaker comes with a separate lock and key.
Two circuit breakers come with two identical locks and keys.
Three circuit breakers come with three identical locks and two identical keys.
Wire-cable mechanical interlock
It can realize the interlock of two sets of horizontally or vertically installed three-pole or four-pole drawer-type or fixed-type circuit breakers.
Connecting-rod type mechanical interlock
Three sets of vertical-installed three-pole or four-pole drawer-type or fixed-type circuit breakers realize
the interlock between one breaker with another two different-state breakers.
Secondary circuit wiring diagram
Wiring diagram of standard -type intelligent controller
Note: If the control voltage of Q, F, X are different from each other, they can be connected to different power sources. If the model ST intelligent release uses direct current power, it must pass through U1 and U2 before being directly connected to termination 1 or 2.
Circuit explanation for signal output
Broken-line parts shall be provided by customers.
Terminals 6#~7# can output NC (normally closed) contact if required by users.
Terminal 35# can be directly connected to power (automatic pre-storing energy) or alternatively connected to power after connecting the NO button (manual-controlled pre-storing energy).
To avoid damage to the shunt release and closing electromagnet, one group of NO (shunt) or NC (close) contact should be separately connected to the control circuit.
Flaut reason and maintenance method
Fault description | Reason analysis | Maintenance method |
Tripping of circuit breaker | Overload tripping (il indictator shining) | 1. Check the breaking current value and acting time of intelligent release. 2. Analyze the load and electric network,exclude the overload if it happens. 3. Match the actual operating current with long delay action current setting value. 4. Press the reset button to reclose the breaker. |
Short circuit tripping ("is" or "it" indicator shining) | 1. Check the breaking current value and acting time of intelligent release. 2. Exclude the short circuit fault if it happens. 3. Check the setting value of intelligent release. 4. Check the normal state of breaker. 5. Press the reset button to reclose the breaker. | |
Earthing fault tripping (IG indicator shining) | 1.Check the breaking current value and acting time of intelligent release. 2.Exclude the earthing fault if that happens 3.Match the fault current setting value with the actual protection. 4.Press the reset button to reclose the breaker. | |
Under-voltage relesase fault: 1. Rated working voltage is less than 70%Ue 2. Fault of control unit | 1. Check if the power is on or not. 2. Check the power voltage of the under-voltage release; it shouldn't be less than 85% of Ue. 3. Replace the control unit of the under-voltage release. | |
Mechanical interlock acting | Check the working state of two circuit breakers fixed with mechanical interlock | |
The breaker can't be closed | Intelligent release does't reset (panel raised) | Press the reset button to recluse the breaker |
Secondary circuit of drawer-type breaker isn't connected | Make the breaker to the "making" position ("click" sound will be heard). | |
Breaker hasn’t stored energ | Check the secondary circuit: 1. Power voltage of motor shouldn't less than 85%Ue 2. Check the storage mechanism, replace it if necessary. | |
Mechanical interlock causing leads to locking of breaker | Check the working state of two circuit breakers fixed with mechanical interlock | |
Closing electromagnet: 1. Rated control voltage is less than 85%Ue; 2. Closing electromagnet is damaged | 1. Power voltage of closing electromagnet shouldn't less than 85%Ue. 2. Replace the electromagnet. | |
Tripping after closing the circuit breaker (fault indicator shining) | Tripping immediately may happen due to the following reasons: 1. Short circuit current is closed 2. Delay tripping because the transient current is high when closing. 3. Over current is closed. | 1. Check the breaking current value and acting time of the intelligent release. 2. Exclude the occurrence of short circuit faults. 3. Exclude overload faults. 4. Check the normal state of the breaker. 5. Modify the current setting value of the intelligent release. 6. Press the reset button to reclose the breaker. |
Circuit breaker can't be opened | The breaker can't be opened manually: There is fault with mechanical operating mechanism | Check the mechanism, if there is fault happened. |
The breaker can't be opened by motor remotely: 1. There is fault with mechanical operating mechanism 2. power voltage of shunt release is less than 75%Ue 3. Shunt release is damaged | 1. Check the mechanism, if there is fault happened. 2. Check if the Power voltage of shunt release is less than 70%Ue or not. 3. Replace shunt release. | |
Circuit breaker can't store energy | Manual storage can't be realized. | Mechanical fault with the energy-stored device |
Motor storage can't be realized 1. Power voltage of motor energy-stored device is less than 85%Ue. 2. There is mechanical fault with energy-stored device. | 1. Power voltage of motor energy-stored device shouldn't be less than 85%Ue. 2. Mechanical fault with the energy-stored device. | |
Handle of drawer-type circuit breaker can't be drawn in or out | 1. There is padlock at the“opening”position 2. Slideway or breaker body isn't pulled into its position. | 1. Take away the padlock 2. Pull the slideway or breaker body into its position |
Drawer-type breaker can't be drawn out at the "opening" position | 1. Handle isn't pulled out 2. Breaker is not totally at the "opening" position | 1. Pull out the handle 2. Keep the circuit breaker totally at "opening" position |
Drawer-type breaker can't reach the "making" position | 1. Something drops into the drawer base, locking the mechanism or causing a mechanism fault. 2. Breaker body doesn't match the frame-size rated current of the drawer base. | 1. Check and clean the drawer base, or contact the manufacturer. 2. Match the body with the relevant drawer base. |
No display on intelligent release panel | 1. Release isn't connected with power. 2. There is a fault with the release. | 1. Check if the power is connected or not. 2. Cut off the power, then connect again. Otherwise, contact the manufacturer |
Closing electromagnet: 1. Rated control voltage is less than 85%Ue. 2. Electromagnet is damaged. | 1. Check the electromagnet power voltage shouldn't be less than 85%Ue. 2. Replace the closing electromagnet. | |
The fault indicator is still shining after pressing the clear button. | Fault happened with intelligent release. | Cut off the power, then connect again. Otherwise, contact the manufacturer |
User | Qty | Date | |||||||
Mode | □□ ZYMW2-1600[IV]frame □ stationary type □ 3 phase □ withdraw type □ 4 phase Rated Current In= A □ AC380V(400V) Rated voltage □ 800V | ||||||||
Intelligent Control Motor | |||||||||
Mode ("F" is motor Protection) | Basic Function | Extra function or accessories | |||||||
L type | □ L2 | Long delay; instant (3~10) In | 1. MCU monitor 2. Fault status indicate 3. Loading indicate 4. Fault storage 5. Snap action test | □ MCR closing breaking and releasing unit; □ pre-alarm Self-diagnosis OCR releasing alarm unit | |||||
□ L3 | Long delay; short delay (3~10) In Instant(10~20) In[Ⅰ frame](4~7) In [Ⅱframe] | ||||||||
□ L4 | Long delay; short delay (3~10) In Instant(10~20) In [Ⅰ frame](4~7) In [Ⅱframe] P to P, P to E protection. | ||||||||
□ L2/F | Long delay; instant (3~10) In | ||||||||
□ L3/F | Long delay; short delay (3~10) In Instant (10~20) In, pre-alarm | ||||||||
M type | □ M | Long delay; short delay; instant; inter-phase earthing protection | 1. Status Indicate; 2. Ammeter; 3. Fault storage 4. Temp. Storage 5. testing | □ Loading indicate □ Voltmeter □ MCR closing breaking and releasing □ pre-alarm Self-diagnosis OCR releasing alarm unit | |||||
□ M/F | Long delay; short delay; instant; pre-alarm | ||||||||
H type | □ H | 1. Long delay; short delay; instant; loading indicate 2. Single phase earthing protection 3. status indicate 4. UI meter 4. faulty storage 5. temp. Storage 6. testing 7. RS485 plug 8. alarming | □ MCR unit □ RS485/232 plug □ ~220 □ ~380 □ ~110 □ DP unit | ||||||
□ H/F | |||||||||
Control Volt. | □ ac 220 □ ac 380 | ||||||||
Accessory | |||||||||
□ undervoltage trip | □ ac 220 □ ac 380 □ dc 220 □ dc 110 | ||||||||
□ undervoltage delay trip □ 1s □ 3s □ 5s | |||||||||
□ shut tripper | □ ac 220 □ ac 380 □ dc 220 □ dc 110 | ||||||||
□ electromagnet | □ ac 220 □ ac 380 □ dc 220 □ dc 110 | ||||||||
□ control motor | □ ac 220 □ ac 380 □ dc 220 □ dc 11 | ||||||||
□ interlock | □ Horizontal □ Vertical □ Door | ||||||||
□ door frame | □ equipped □ not equipped | ||||||||
□ locker on breaking position | □ equipped □ not equipped | ||||||||
□ external signal phase CT | □ different value □ earth current | ||||||||
□ connection type | □ Horizontal □ Vertical |
Application Scope:
The W2 series air circuit breaker (hereinafter referred to as "breaker") is suitable for AC 50Hz circuits with rated voltages of 400V and 800V, and rated currents up to 1600A. It is primarily used to distribute electrical energy and to protect circuits and power-supply equipment from overload, under-voltage, short-circuit, and single-phase earthing faults. With intelligent and selective protection functions, the breaker is ideal for use in power stations, factories, mines (for 800V), and modern high-rise buildings, particularly in the distribution systems of intelligent buildings.
This breaker conforms to IEC 60947-2 and GB 14048.2 standards. The entire series has passed CCC certification and CB certification from SEMKO.
Temperature: -5℃ to +40℃; 24-hour average not to exceed +35℃.
Elevation: Installation altitude should not exceed 2000m.
Humidity: At +40℃, relative humidity should not exceed 50%. Higher humidity allowed at lower temperatures. Max 90% relative humidity when average temperature is +25℃ in the most humid month.
Dew: Consider the effect of dew due to temperature changes.
Pollution Grade: Grade 3.
Installation: Follow manual instructions. Vertical inclination should not exceed 5°.
Installation and usage:
Installation
1. Unload the Breaker:
Pull out the handle from under the drawer base.
Insert it into the hole on the plastic cover under the drawer base crossbeam.
Turn the handle anticlockwise; the breaker body will slide out.
When the guide-rod points to the separated position and the handle can't be rotated further, pull out the handle.
Grasp the aluminum handle on the drawer base, pull out the breaker body, and remove it from the base.
Remove the base from the soleplate and clean any debris inside the drawer base.
2. Check Insulation Resistance:
Use a 500V megger to check the insulation resistance.
Resistance should not be less than 20MΩ at 20℃ ± 5℃ and 50% to 70% relative humidity. If lower, dry the breaker.
3. Install the Breaker:
3.1 Fixed-Type:
Place the breaker onto the installation bracket and secure it.
Connect the main circuit bus wire to the fixed-type circuit breaker bus wire.
3.2 Drawer-Type:
Place the breaker body onto the guide rail of the drawer base.
Insert the handle into the installation hole and turn it clockwise until a 'click' is heard, indicating the breaker body is connected.
Connect the main circuit bus wire to the drawer base bus wire.
ZYMW2 Moulded Case Circuit Breaker | 1600 | |
Rated ultimate short circuit Breaking capacity (KA) | Icu=65kA 400V 20kA 800V Ics=lcw=50kA 400V 15kA 800V | |
Rated current In(A) | 200A 400A 630A 800A 1000A 1600A | |
Number of poles | 3P/4P | |
Rated voltage Ue(V) | 400V/800V | |
Rated insulation voltage Ui(A) | 1000V | |
Rated current of N-pole IN(A) | 50%In 100%In | |
Fixed disconnection time | 23~32ms | |
Intelligent Controller | Standard type(M) ● ● ● ● ● | |
Communication type(H) | ||
Operation Performance-Nce | Electrical Life 500 | |
Mechanical Life | Non-maintenance 2500 | |
Maintenance 10000 | ||
Connection Pattern Horizontal Vertical |
Kind Instructions: This product has a drawer type with a three position locking device for "seperation", "testing", and "connection" to prevent users from misoperating when in the corresponding indicated position, the red button will pop up and cannot proceed to the next step without resetting.
Control unit
The intelligent controller is the core part of the circuit breaker. It is classified into two types: standard and communication. The latter has the additional function of communication compared to the former.
Over-current protection characteristic
Long-time delay over-current protection ,inverse time-delay acting characteristic.
Rated Current Error Current Acting time Time Rang(Irl) error | ||
0.4~1 ±10% | 1.05Ir1 No acting after two hours | |
1.3Ir1 Acting within one hour | ||
1.5Ir1 15 30 60 120 240 480 ±10% | ||
2.0Ir1 8.4 15.9 33.7 67.5 135 270 ±10% |
Short-time delay over-current protection acting characteristic
Inverse time-delay acting at low-multiple current, and 12Ts=(8Irl)2ts, where is the actual current, Ts is the actual acting time, and ts is the setting delay time. When current exceeds 8Irl, automatic conversion to definite time-delay acting occurs. When short-time delay is definite time-delay, low-multiple current can also be definite time-delay characteristic.
Rated Error Setting delay time Return time time error Current |
Lr2 Ts(s) (s) |
1~15 ±10% 0.1 0.2 0.3 0.4 0.06 0.14 0.23 0.35 ±15% |
Instantaneous action characteristic
Rated current(lr3) Error |
1.0In~50/75kA ±15% |
Test
panel keys | Check the time-current characteristic and tripping Performance mechanism of intelligent controller |
Check the time-current characteristic of Non-tripping intelligent controller |
Earthing fault protection (four types)
Select W2 three-pole circuit breaker (out-connected current transformer not appended )for three-phase three-wire system.
Earthing fault protection signal is the vector sum of three-phase current.
Protection characteristic is definite time-delay protection.
Select W2 four-pole circuit breaker for three-phase four-wire system
Earthing fault protection signal is the vector sum of three-phase current and N-pole current protection
characteristic is definite time-delay protection
Select W2 three-pole circuit breaker for three-phase four-wire system
Connecting neutral-pole current transformer for earth fault protection(connect25#, 26#terminals )
Connecting neutral-pole current transformer for earth fault protection (connect25#,26#terminals)
Earth fault protection signal is vector sum of three-phase current and N pole current
Protection characteristic is definite time-delay protection
Select W2 three-pole circuit breaker for TN-S system.
Connecting current transformer for earth fault protection (connect 25#, 26#terminals)
Protection characteristic is definite time-delay protection.
Characteristic of monitoring with load
Pattern 1: it can control two-circuit load ,send out contact signal and break sub-load when the
operating current surpasses super-overload long time-delay inverse time-delay setting current lu ,thus
ensure the power supply of main system.
Pattern2: Only control one-circuit load ,when operating current surpasses,llc1setting value ,signal is
sent out to break the sub-load ,thus ensure the normal power-supply of main system .if the main
current falls to llc2 setting value after reaking lasts for some time , comtroller can make broken load
and recover the supply of whole system.
Single-phase earthing fault protection characteristic
Single-phase earthing fault means the metal-property earthing protection when fault current exceeds
several hundred amperes ,which is generally applied to direct center earthing system.
When earthing fault protection is definite time-delay acting, the setting is as follows:
Knowledge of accessories
Shunt release
Except manual-operated to directly break the circuit breaker for special products
It can be remote-operated to break the circuit breaker
Characteristic
Rated control power voltage Us(V) | AC400, AC230, AC127 | DC220, 110 |
Action voltage(V) | (0.7~1.1)Us | |
Power consumption | 40VA | 40W |
Breaking time | Less than 30Ms |
Forbid making the power for long time to avoid being damaged.
Under-voltage release
Under-voltage release
Users can select it or not if need.
Under-voltage release is used to break circuit breaker and protect the equipment(such as motor) when under-voltage or voltage-failure happens, or automatically break the under-voltage circuit of power supply system, improves the reliability and safety (such as dual-circuit).
Its action-pattern is classified into instantaneous action and time-delay action.
Delay-time of under-voltage time-delay release is classified into three types of 1s, 3s and 5s, and the accuracy is ±15%. Within 1/2 time-delay scope, Circuit breaker don't break when power voltage recovers and exceeds 85% Ue.
Characteristic
Rated control power voltage Ue(V) | AC400, 230, 127 | DC220, 110 |
Action voltage(V) | (0.35~0.7)Ue | |
Reliable switching voltage(V) | (0.85~1.1)Ue | |
Reliable non-switching voltage(V) | V/0.35Ue | |
Power consumption | 48VA(W) |
Make the power before operating the circuit breaker.
Closing electromagnet
After motor finishes storing energy, closing electromagnet can instantly release spring-force of operation mechanism, and quickly close the circuit breaker.
Characteristic
Rated control power voltage Ue (V) | AC400, 230, 127 | DC220、110 |
Action voltage(V) | (0.85~1.1)Ue | |
Power consumption | 48VA | 40W |
Storing-energy time | Less than 70Ms |
Forbid making the power for long time to avoid being damaged.
Motor-driven energy-storage mechanism
With automatic re-storing energy function ,which is convenient for switc-hing duplicate power supply.
Characteristic
Rated control power voltage Ue (V) | AC400, 230 | DC220, 110 |
Action voltage(V) | (0.85~1.1)Ue | |
Power consumption | 192VA | 192W |
Storing-energy time | Less than 5s |
Forbid making the power for long time to avoid being damaged.
Auxiliary contact
Standard model: 4-NO(normal open) and 4-NC(normal closed)
Special models: 3-NO & 5-NC, 5-NO & 3-NC, 6-NO & 2-NC, 2-NO & 6-NC
Rated value
Rated voltage(V) | Rated heating current | th(A) | Rated control capacity |
AC230 | 6 | 300VA |
AC400 | 6 | 300VA |
DC220 | 6 | 60W |
Break the locking device
Breaking the locking device will cause the breaking button to lock in the pressed position, preventing the breaker from closing.
For drawer-type breakers:
When the breaker is in the breaking position, pull out the lock rod.
Lock the breaker with a padlock. After locking, the breaker cannot reach the "test" or "making" positions (padlock provided by the user).
Locks and keys are provided as followes:
Each circuit breaker comes with a separate lock and key.
Two circuit breakers come with two identical locks and keys.
Three circuit breakers come with three identical locks and two identical keys.
Wire-cable mechanical interlock
It can realize the interlock of two sets of horizontally or vertically installed three-pole or four-pole drawer-type or fixed-type circuit breakers.
Connecting-rod type mechanical interlock
Three sets of vertical-installed three-pole or four-pole drawer-type or fixed-type circuit breakers realize
the interlock between one breaker with another two different-state breakers.
Secondary circuit wiring diagram
Wiring diagram of standard -type intelligent controller
Note: If the control voltage of Q, F, X are different from each other, they can be connected to different power sources. If the model ST intelligent release uses direct current power, it must pass through U1 and U2 before being directly connected to termination 1 or 2.
Circuit explanation for signal output
Broken-line parts shall be provided by customers.
Terminals 6#~7# can output NC (normally closed) contact if required by users.
Terminal 35# can be directly connected to power (automatic pre-storing energy) or alternatively connected to power after connecting the NO button (manual-controlled pre-storing energy).
To avoid damage to the shunt release and closing electromagnet, one group of NO (shunt) or NC (close) contact should be separately connected to the control circuit.
Flaut reason and maintenance method
Fault description | Reason analysis | Maintenance method |
Tripping of circuit breaker | Overload tripping (il indictator shining) | 1. Check the breaking current value and acting time of intelligent release. 2. Analyze the load and electric network,exclude the overload if it happens. 3. Match the actual operating current with long delay action current setting value. 4. Press the reset button to reclose the breaker. |
Short circuit tripping ("is" or "it" indicator shining) | 1. Check the breaking current value and acting time of intelligent release. 2. Exclude the short circuit fault if it happens. 3. Check the setting value of intelligent release. 4. Check the normal state of breaker. 5. Press the reset button to reclose the breaker. | |
Earthing fault tripping (IG indicator shining) | 1.Check the breaking current value and acting time of intelligent release. 2.Exclude the earthing fault if that happens 3.Match the fault current setting value with the actual protection. 4.Press the reset button to reclose the breaker. | |
Under-voltage relesase fault: 1. Rated working voltage is less than 70%Ue 2. Fault of control unit | 1. Check if the power is on or not. 2. Check the power voltage of the under-voltage release; it shouldn't be less than 85% of Ue. 3. Replace the control unit of the under-voltage release. | |
Mechanical interlock acting | Check the working state of two circuit breakers fixed with mechanical interlock | |
The breaker can't be closed | Intelligent release does't reset (panel raised) | Press the reset button to recluse the breaker |
Secondary circuit of drawer-type breaker isn't connected | Make the breaker to the "making" position ("click" sound will be heard). | |
Breaker hasn’t stored energ | Check the secondary circuit: 1. Power voltage of motor shouldn't less than 85%Ue 2. Check the storage mechanism, replace it if necessary. | |
Mechanical interlock causing leads to locking of breaker | Check the working state of two circuit breakers fixed with mechanical interlock | |
Closing electromagnet: 1. Rated control voltage is less than 85%Ue; 2. Closing electromagnet is damaged | 1. Power voltage of closing electromagnet shouldn't less than 85%Ue. 2. Replace the electromagnet. | |
Tripping after closing the circuit breaker (fault indicator shining) | Tripping immediately may happen due to the following reasons: 1. Short circuit current is closed 2. Delay tripping because the transient current is high when closing. 3. Over current is closed. | 1. Check the breaking current value and acting time of the intelligent release. 2. Exclude the occurrence of short circuit faults. 3. Exclude overload faults. 4. Check the normal state of the breaker. 5. Modify the current setting value of the intelligent release. 6. Press the reset button to reclose the breaker. |
Circuit breaker can't be opened | The breaker can't be opened manually: There is fault with mechanical operating mechanism | Check the mechanism, if there is fault happened. |
The breaker can't be opened by motor remotely: 1. There is fault with mechanical operating mechanism 2. power voltage of shunt release is less than 75%Ue 3. Shunt release is damaged | 1. Check the mechanism, if there is fault happened. 2. Check if the Power voltage of shunt release is less than 70%Ue or not. 3. Replace shunt release. | |
Circuit breaker can't store energy | Manual storage can't be realized. | Mechanical fault with the energy-stored device |
Motor storage can't be realized 1. Power voltage of motor energy-stored device is less than 85%Ue. 2. There is mechanical fault with energy-stored device. | 1. Power voltage of motor energy-stored device shouldn't be less than 85%Ue. 2. Mechanical fault with the energy-stored device. | |
Handle of drawer-type circuit breaker can't be drawn in or out | 1. There is padlock at the“opening”position 2. Slideway or breaker body isn't pulled into its position. | 1. Take away the padlock 2. Pull the slideway or breaker body into its position |
Drawer-type breaker can't be drawn out at the "opening" position | 1. Handle isn't pulled out 2. Breaker is not totally at the "opening" position | 1. Pull out the handle 2. Keep the circuit breaker totally at "opening" position |
Drawer-type breaker can't reach the "making" position | 1. Something drops into the drawer base, locking the mechanism or causing a mechanism fault. 2. Breaker body doesn't match the frame-size rated current of the drawer base. | 1. Check and clean the drawer base, or contact the manufacturer. 2. Match the body with the relevant drawer base. |
No display on intelligent release panel | 1. Release isn't connected with power. 2. There is a fault with the release. | 1. Check if the power is connected or not. 2. Cut off the power, then connect again. Otherwise, contact the manufacturer |
Closing electromagnet: 1. Rated control voltage is less than 85%Ue. 2. Electromagnet is damaged. | 1. Check the electromagnet power voltage shouldn't be less than 85%Ue. 2. Replace the closing electromagnet. | |
The fault indicator is still shining after pressing the clear button. | Fault happened with intelligent release. | Cut off the power, then connect again. Otherwise, contact the manufacturer |
User | Qty | Date | |||||||
Mode | □□ ZYMW2-1600[IV]frame □ stationary type □ 3 phase □ withdraw type □ 4 phase Rated Current In= A □ AC380V(400V) Rated voltage □ 800V | ||||||||
Intelligent Control Motor | |||||||||
Mode ("F" is motor Protection) | Basic Function | Extra function or accessories | |||||||
L type | □ L2 | Long delay; instant (3~10) In | 1. MCU monitor 2. Fault status indicate 3. Loading indicate 4. Fault storage 5. Snap action test | □ MCR closing breaking and releasing unit; □ pre-alarm Self-diagnosis OCR releasing alarm unit | |||||
□ L3 | Long delay; short delay (3~10) In Instant(10~20) In[Ⅰ frame](4~7) In [Ⅱframe] | ||||||||
□ L4 | Long delay; short delay (3~10) In Instant(10~20) In [Ⅰ frame](4~7) In [Ⅱframe] P to P, P to E protection. | ||||||||
□ L2/F | Long delay; instant (3~10) In | ||||||||
□ L3/F | Long delay; short delay (3~10) In Instant (10~20) In, pre-alarm | ||||||||
M type | □ M | Long delay; short delay; instant; inter-phase earthing protection | 1. Status Indicate; 2. Ammeter; 3. Fault storage 4. Temp. Storage 5. testing | □ Loading indicate □ Voltmeter □ MCR closing breaking and releasing □ pre-alarm Self-diagnosis OCR releasing alarm unit | |||||
□ M/F | Long delay; short delay; instant; pre-alarm | ||||||||
H type | □ H | 1. Long delay; short delay; instant; loading indicate 2. Single phase earthing protection 3. status indicate 4. UI meter 4. faulty storage 5. temp. Storage 6. testing 7. RS485 plug 8. alarming | □ MCR unit □ RS485/232 plug □ ~220 □ ~380 □ ~110 □ DP unit | ||||||
□ H/F | |||||||||
Control Volt. | □ ac 220 □ ac 380 | ||||||||
Accessory | |||||||||
□ undervoltage trip | □ ac 220 □ ac 380 □ dc 220 □ dc 110 | ||||||||
□ undervoltage delay trip □ 1s □ 3s □ 5s | |||||||||
□ shut tripper | □ ac 220 □ ac 380 □ dc 220 □ dc 110 | ||||||||
□ electromagnet | □ ac 220 □ ac 380 □ dc 220 □ dc 110 | ||||||||
□ control motor | □ ac 220 □ ac 380 □ dc 220 □ dc 11 | ||||||||
□ interlock | □ Horizontal □ Vertical □ Door | ||||||||
□ door frame | □ equipped □ not equipped | ||||||||
□ locker on breaking position | □ equipped □ not equipped | ||||||||
□ external signal phase CT | □ different value □ earth current | ||||||||
□ connection type | □ Horizontal □ Vertical |