Kriwan 22A613 INT69 E1
Brief Introduction of This Model
Kriwan 22A613 INT69 E1 is a compact model that monitors motor temperature, phase sequence and phase failure of motors in refrigerant compressors.
Used in high volume for Bitzer compressors
Application
Monitoring of motor temperature, phase sequence and phase failure of motors in refrigerant compressors.
Functional Description
• The INT69 E1 can monitor up to nine PTC thermistors even with differing rated shut-off temperatures. If one or more PTC thermistors become highly resistive, the motor protector switches off and locks.
• The monitoring of the phase sequence becomes active 1 second after the motor has started, for a time window of 5 seconds. In case of a wrong phase sequence the relay switches off and locks.
• The phase failure detection is active for about 1 second after the motor starts until the motor stops. In case of a detected phase failure, the motor is shut-off and a restart commences after about 10 seconds. After the third shut-off, caused by a phase failure, within 12 minutes or at the 10th shut-off within 24 hours, there is a locked shut-off.
• After the motor is shut off, the phase monitoring is inactive for 10 seconds to avoid an unintended shut off by a motor that possibly may be rotating in reverse.
• The lock-out can be removed by a mains reset (>5s).
• The sensor and supply circuits are galvanically isolated from each other.
• The relay output is designed as a potential-free change-over contact in closed-circuit principle.
• The INT69 E1 is not suitable for use with frequency converters.
• The INT69 E1 can monitor up to nine PTC thermistors even with differing rated shut-off temperatures. If one or more PTC thermistors become highly resistive, the motor protector switches off and locks.
• The monitoring of the phase sequence becomes active 1 second after the motor has started, for a time window of 5 seconds. In case of a wrong phase sequence the relay switches off and locks.
• The phase failure detection is active for about 1 second after the motor starts until the motor stops. In case of a detected phase failure, the motor is shut-off and a restart commences after about 10 seconds. After the third shut-off, caused by a phase failure, within 12 minutes or at the 10th shut-off within 24 hours, there is a locked shut-off.
• After the motor is shut off, the phase monitoring is inactive for 10 seconds to avoid an unintended shut off by a motor that possibly may be rotating in reverse.
• The lock-out can be removed by a mains reset (>5s).
• The sensor and supply circuits are galvanically isolated from each other.
• The relay output is designed as a potential-free change-over contact in closed-circuit principle.
• The INT69 E1 is not suitable for use with frequency converters.
Kriwan 22A613
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The motor protector INT69 TM2 Diagnose is a further development of the reliable KRIWAN motor protectors.
Its supplementary flexible-response protective functions help to improve the availability and extend the service life of a refrigeration system.
The INT69 TM2 Diagnose automatically saves operational and error data in a non-volatile memory.
This data can be retrieved on a PC and analysed for diagnosis.
The full scope of the diagnosis is achieved by using a KRIWAN-specific AMS sensor.
This motor protector is mainly employed on compressors which are qualified acc. to IEC/EN 60335.
Functional Description
The temperature monitoring of the motor winding is done with two evaluation processes:
1) Static: Switch-off is immediate if the nominal response temperature of the built-in AMS or PTC sensors is reached.
2) Dynamic: If the temperature increases unusually quickly, the motor is switched off immediately even if the temperature is still far below the nominal response temperature. This prevents excess temperatures from occurring.
A short circuit at an AMS or PTC input also leads to a switch-off.
After expiration of the reset delay and elimination of the error or cooldown, the compressor can be restarted.
The temperature monitoring of the motor winding is done with two evaluation processes:
1) Static: Switch-off is immediate if the nominal response temperature of the built-in AMS or PTC sensors is reached.
2) Dynamic: If the temperature increases unusually quickly, the motor is switched off immediately even if the temperature is still far below the nominal response temperature. This prevents excess temperatures from occurring.
A short circuit at an AMS or PTC input also leads to a switch-off.
After expiration of the reset delay and elimination of the error or cooldown, the compressor can be restarted.
Temperature measuring circuits | |
- Type | 1-2 AMS sensors in series alternative 1-9 PTC sensors acc. to DIN 44081, DIN 44082 in series |
- R25,total | <1.8KΩ |
- Rtrip, static | 4.5KΩ ± 20% |
- Rreset | 2.75kΩ ±20% |
- Max. length connection line | 30m |
Short circuit monitoring system PTC | Typically <30Ω |
Reset delay |
- Motor temperature static - 5min  ± 1 min - Motor temperature dynamic - 5min  ± 1 min |
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Kriwan 22A263S80
Kriwan 22A278S30 INT369 KA Diagnose
Application
The motor protector 22A278S30 KA Diagnose is a further development of the reliable KRIWAN motor protectors.
The 22A278S30 INT369 KA Diagnose automatically saves operational and error data in a non-volatile memory. This data can be retrieved on a PC and analyzed for diagnosis.
This motor protector is mainly employed on compressors of which the PTC sensors in the motor winding are led out individually.
Functional description
The temperature monitoring of the motor winding is done with two evaluation processes:
1) Static: Switch-off is immediate if the nominal response temperature of the built-in PTC sensors is reached.
2) Dynamic: If the temperature increases unusually quickly, the motor is switched off immediately even if the temperature is still far below
the nominal response temperature. This prevents excess temperatures from occurring.
The 22A278S30 INT369 KA Diagnose monitors the applied module supply voltage and switches off as soon as it drops below a fixed specified limit value.
After expiration of the reset delay and elimination of the error, the compressor can be restarted.
An active reset delay can be reset only by briefly connecting the terminals "X" and "C".
The built-in LED signals the current status of the motor protector
The temperature monitoring of the motor winding is done with two evaluation processes:
1) Static: Switch-off is immediate if the nominal response temperature of the built-in PTC sensors is reached.
2) Dynamic: If the temperature increases unusually quickly, the motor is switched off immediately even if the temperature is still far below
the nominal response temperature. This prevents excess temperatures from occurring.
The 22A278S30 INT369 KA Diagnose monitors the applied module supply voltage and switches off as soon as it drops below a fixed specified limit value.
After expiration of the reset delay and elimination of the error, the compressor can be restarted.
An active reset delay can be reset only by briefly connecting the terminals "X" and "C".
The built-in LED signals the current status of the motor protector
Temperature measuring circuits | |
- Type | 3 separate inputs for PTC sensors acc. to DIN 44081, DIN 44082 |
- Rtrip, static | 13KΩ ± 3KΩ |
- Rreset | 3.25kΩ ± 0.5KΩ |
- Max. length connection line | 30m |
Reset delay | 2min ± 20s |
Reset of reset delay | Activation of the reset input only possible if there is no error current |
Kriwan 22A278S30
Kriwan 22A445S80 INT69-2 Diagnose
Application
The motor protector 22A445S80 INT69-2 Diagnose is a further development of the reliable KRIWAN motor protectors. Its supplementary flexible-response protective functions help to improve the availability and extend the service life of a refrigeration system.
The 22A445S80 INT69-2 Diagnose automatically saves operational and error data in a non-volatile memory. This data can be retrieved on a PC and analyzed for diagnosis. The full scope of the diagnosis is achieved by using a KRIWAN-specific AMS sensor.
This motor protector is mainly employed on compressors which are qualified acc. to IEC/EN 60335.
Functional Description
The temperature monitoring of the motor winding is done with two evaluation processes:
1) Static: Switch-off is immediate if the nominal response temperature of the built-in AMS or PTC sensors is reached.
2) Dynamic: If the temperature increases unusually quickly, the motor is switched off immediately even if the temperature is still far below the nominal response temperature. This prevents excess temperatures from occurring.
A short circuit at an AMS or PTC input also leads to a switch-off.
After expiration of the reset delay and elimination of the error or cooldown, the compressor can be restarted.
For operation in the specified manner, the supply voltage has to be on permanently on the 22A445S80 INT69-2 Diagnose.
The temperature monitoring of the motor winding is done with two evaluation processes:
1) Static: Switch-off is immediate if the nominal response temperature of the built-in AMS or PTC sensors is reached.
2) Dynamic: If the temperature increases unusually quickly, the motor is switched off immediately even if the temperature is still far below the nominal response temperature. This prevents excess temperatures from occurring.
A short circuit at an AMS or PTC input also leads to a switch-off.
After expiration of the reset delay and elimination of the error or cooldown, the compressor can be restarted.
For operation in the specified manner, the supply voltage has to be on permanently on the 22A445S80 INT69-2 Diagnose.
Temperature measuring circuits | |
- Type | 1-2 AMS sensors in series alternative 1-9 PTC sensors acc. to DIN 44081, DIN 44082 in series |
- R25,total | <1.8KΩ |
- Rtrip, static | 4.5KΩ ± 20% |
- Rreset | 2.75kΩ ±20% |
- Max. length connection line | 30m |
Short circuit monitoring system PTC | Typically <30Ω |
Reset delay |
- Motor temperature static - 5 min ± 1min - Motor temperature dynamic - 5min  ± 1 min |
Reset of reset delay | Main reset >5s only possible if there is no error current |
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Brief Introduction of This Model
Kriwan 22A620S80 INT69 KF2 Diagnose has a different type of connection and is mainly used for Emerson Copeland compressors.
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The Kriwan 22A620S80 INT69 KF2 Diagnose has 2 Circuits inside, which provides a redundancy circuit against failure, system reliability and meets VDE regulations. Application The motor protector INT69 KF2 Diagnose is a further development of the reliable KRIWAN motor protectors. The INT69 KF2 Diagnose automatically saves operational and error data in a non-volatile memory. This data can be retrieved and analyzed for diagnosis. The full scope of the diagnosis is achieved by using a KRIWAN-specific AMS sensor. This motor protector is mainly employed on compressors which are qualified acc. to IEC/EN 60335.
Functional Description
The temperature monitoring in the motor winding is done according to the static evaluation process; the motor is switched off immediately if the nominal response temperature of the built-in AMS or PTC sensors is reached.
A short circuit at an AMS or PTC input also leads to a switch-off.
After expiration of the reset delay and elimination of the error or cooldown, the compressor can be restarted.
The temperature monitoring in the motor winding is done according to the static evaluation process; the motor is switched off immediately if the nominal response temperature of the built-in AMS or PTC sensors is reached.
A short circuit at an AMS or PTC input also leads to a switch-off.
After expiration of the reset delay and elimination of the error or cooldown, the compressor can be restarted.
Kriwan 22A620S80
Kriwan 22A634 INT69 Y Diagnose
Brief Introduction of This Model
1) Perfect for screw and scroll compressors. This motor protector is mainly employed on compressors of which the motor's direction of rotation is essential for the function.
2) Protects from high temperature and phase issues (inversion, asymmetry, missing, etc.).
3) Diagnose datalog function
4) UL approved model
Used in high volume by Danfoss, Trane, Hanbell and many Chinese OEMs.
Application
The compressor protection Kriwan 22A634 INT69 Y Diagnose is a further development of the reliable KRIWAN motor protectors. Additional inputs for the phase monitoring as well as supplementary flexible-response protective functions help to improve the availability and extend the service life of a refrigeration system.
The Kriwan 22A634 INT69 Y Diagnose automatically saves operational and error data in a non-volatile memory. This data can be retrieved and analysed for diagnosis. The full scope of the diagnosis is achieved by using a KRIWAN-specific AMS sensor.
This motor protector is mainly employed on compressors of which the motor's direction of rotation is essential for the function.
Functional Description
The temperature monitoring in the motor winding is done according to the static evaluation process; the motor is switched off immediately if the nominal response temperature of the built-in AMS or PTC sensors is reached.
A short circuit at an AMS or PTC input also leads to a switch-off. A short cycling leads to a reset delay.
Following cooling off and/or error rectification and subsequent restart delay, the compressor may be restarted. Restart after a lock-out is only possible after a reset.
The phase monitoring of the motor voltage is active 1s after the start of the motor. The correct phase sequence is monitored for 5s, the phase failure is monitored for the total motor running time. If a wrong phase sequence is detected, the motor protector will lock switch off, if there is a phase failure then a switch-off takes place.
After motor stop, the phase monitoring is deactivated for approximately 15s to prevent unintended locking due to brief reverse running of the compressor.
For operation in the specified manner, the supply voltage has to be on permanently on the Kriwan 22A634 INT69 Y Diagnose.
The built-in LED signals the current status of the motor protector (see flash code).
The compressor protection Kriwan 22A634 INT69 Y Diagnose is a further development of the reliable KRIWAN motor protectors. Additional inputs for the phase monitoring as well as supplementary flexible-response protective functions help to improve the availability and extend the service life of a refrigeration system.
The Kriwan 22A634 INT69 Y Diagnose automatically saves operational and error data in a non-volatile memory. This data can be retrieved and analysed for diagnosis. The full scope of the diagnosis is achieved by using a KRIWAN-specific AMS sensor.
This motor protector is mainly employed on compressors of which the motor's direction of rotation is essential for the function.
Functional Description
The temperature monitoring in the motor winding is done according to the static evaluation process; the motor is switched off immediately if the nominal response temperature of the built-in AMS or PTC sensors is reached.
A short circuit at an AMS or PTC input also leads to a switch-off. A short cycling leads to a reset delay.
Following cooling off and/or error rectification and subsequent restart delay, the compressor may be restarted. Restart after a lock-out is only possible after a reset.
The phase monitoring of the motor voltage is active 1s after the start of the motor. The correct phase sequence is monitored for 5s, the phase failure is monitored for the total motor running time. If a wrong phase sequence is detected, the motor protector will lock switch off, if there is a phase failure then a switch-off takes place.
After motor stop, the phase monitoring is deactivated for approximately 15s to prevent unintended locking due to brief reverse running of the compressor.
For operation in the specified manner, the supply voltage has to be on permanently on the Kriwan 22A634 INT69 Y Diagnose.
The built-in LED signals the current status of the motor protector (see flash code).
kriwan 22A634