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TI5300
TUNKIA
TI5300 AC DC Current Sensor Testing Device
1. Summary
TI5300 is an instrument dedicated to testing sensors. It consists of an AC and DC current standard source, a sensor output power measurement module and an auxiliary power supply. It can directly measure the ratio difference, angular difference, power consumption and other parameters of the current sensor.
2. Features
• The sensor was tested using the standard source method.
• DC current output: ±(60 mA ~ 120 A), class 0.01
• AC current output: 60 mA ~ 120 A, class 0.02
• Sine wave frequency: 40 Hz ~ 1 kHz
• Built-in sensor secondary output power measurement module
• Built-in sensor auxiliary power supply and power consumption measurement module
• Supports testing of sensor ratio difference and angle difference.
• Equipped with a transfer box, it can be adapted to a variety of sensor output interfaces.
• LCD touch screen
• Testing software (optional).
TI5300 AC DC Current Sensor Testing Device
1. Summary
TI5300 is an instrument dedicated to testing sensors. It consists of an AC and DC current standard source, a sensor output power measurement module and an auxiliary power supply. It can directly measure the ratio difference, angular difference, power consumption and other parameters of the current sensor.
2. Features
• The sensor was tested using the standard source method.
• DC current output: ±(60 mA ~ 120 A), class 0.01
• AC current output: 60 mA ~ 120 A, class 0.02
• Sine wave frequency: 40 Hz ~ 1 kHz
• Built-in sensor secondary output power measurement module
• Built-in sensor auxiliary power supply and power consumption measurement module
• Supports testing of sensor ratio difference and angle difference.
• Equipped with a transfer box, it can be adapted to a variety of sensor output interfaces.
• LCD touch screen
• Testing software (optional).
3. Application
☆ Test AC and DC Sensors |
• Use standard source method, that is, the TI5300 outputs the standard current I1 to the sensor being tested, and simultaneously measures its secondary output signal to detect the ratio difference, angular difference, linearity, etc. of the DUT. • Sensor auxiliary power supply: adjustable within the range of DC ±(5.0 V~50.0 V), supporting power consumption measurement. • Configure a transfer box to adapt to various sensor output interfaces such as DB9 serial port. • Suitable for testing DC current sensors of class 0.05 and below, and AC current sensors of class 0.1 and below. |
4. Instrument Appearance
☆ Front Panel | |
S/N | Function |
LCD touch screen | |
Operation button panel | |
Sensor output power measurement and power supply interface | |
Current output terminal: outputs a maximum of 120 A AC and DC current. |
☆ Rear Panel | |
S/N | Function |
Handle | |
Cooling vent | |
Ground terminal | |
RS232 | |
Power switch and interfaces | |
Foldable feet |
☆ Connection Adapter | |
S/N | Function |
Measurement/power interface: Connect to the sensor output power measurement and power supply interface on the front panel. | |
Power supply terminal: Provides positive and negative polarity power supply for the sensor. | |
Power indicator light: When the sensor is working normally and powered, the indicator light is on. | |
Voltage measurement terminal: Universal Φ4 socket, easy to connect with commonly used test lead plugs. | |
Current measurement terminal: Universal Φ4 socket, easy to connect with commonly used test lead plugs. | |
Sensor interface: DB9 male interface, used to transmit the sensor’s secondary output signal and auxiliary power supply. |
5. Characteristics
☆ Directly Displays Sensor Ratio Difference and Angle Difference |
• The embedded software interface can display the primary current output value and secondary signal measurement value. • Directly display the ratio difference and angular difference measurement results of the tested sensor. |
☆ Ripple and Distortion Measurements |
• Supports the measurement of ripple and distortion of the sensor's secondary output signal. |
☆ Sensor Auxiliary Power Supply And Power Consumption Measurement |
• TI5300 comes standard with an adjustable power supply within the range of DC ±(5.0 V ~ 50.0 V), no external power supply is required. • It supports the input power impact test of the sensor and can also measure the power consumption of the sensor. |
3. Application
☆ Test AC and DC Sensors |
• Use standard source method, that is, the TI5300 outputs the standard current I1 to the sensor being tested, and simultaneously measures its secondary output signal to detect the ratio difference, angular difference, linearity, etc. of the DUT. • Sensor auxiliary power supply: adjustable within the range of DC ±(5.0 V~50.0 V), supporting power consumption measurement. • Configure a transfer box to adapt to various sensor output interfaces such as DB9 serial port. • Suitable for testing DC current sensors of class 0.05 and below, and AC current sensors of class 0.1 and below. |
4. Instrument Appearance
☆ Front Panel | |
S/N | Function |
LCD touch screen | |
Operation button panel | |
Sensor output power measurement and power supply interface | |
Current output terminal: outputs a maximum of 120 A AC and DC current. |
☆ Rear Panel | |
S/N | Function |
Handle | |
Cooling vent | |
Ground terminal | |
RS232 | |
Power switch and interfaces | |
Foldable feet |
☆ Connection Adapter | |
S/N | Function |
Measurement/power interface: Connect to the sensor output power measurement and power supply interface on the front panel. | |
Power supply terminal: Provides positive and negative polarity power supply for the sensor. | |
Power indicator light: When the sensor is working normally and powered, the indicator light is on. | |
Voltage measurement terminal: Universal Φ4 socket, easy to connect with commonly used test lead plugs. | |
Current measurement terminal: Universal Φ4 socket, easy to connect with commonly used test lead plugs. | |
Sensor interface: DB9 male interface, used to transmit the sensor’s secondary output signal and auxiliary power supply. |
5. Characteristics
☆ Directly Displays Sensor Ratio Difference and Angle Difference |
• The embedded software interface can display the primary current output value and secondary signal measurement value. • Directly display the ratio difference and angular difference measurement results of the tested sensor. |
☆ Ripple and Distortion Measurements |
• Supports the measurement of ripple and distortion of the sensor's secondary output signal. |
☆ Sensor Auxiliary Power Supply And Power Consumption Measurement |
• TI5300 comes standard with an adjustable power supply within the range of DC ±(5.0 V ~ 50.0 V), no external power supply is required. • It supports the input power impact test of the sensor and can also measure the power consumption of the sensor. |
6. Specification
6.1 AC and DC Current Standard Sources
Current Range | Resolution | Frequency (Hz) | Short-term Stability (ppm/min) | Measurement Uncertainty(k=2) (ppm*RD+ppm*RG)[1] | Temperature Coefficient (ppm*RG/°C) | Compliance voltage (Vrms) |
300 mA | 100 nA | DC | 30 | 60 + 40 | 5 | 2 |
45~200 | 150 | 250 + 100 | 10 | 1.5 | ||
200~1k | 150 | 300 + 200 | 10 | 1.0 | ||
1 A | 1 μA | DC | 30 | 60 + 40 | 5 | 2 |
45~200 | 100 | 200 + 100 | 10 | 1.2 | ||
200~1k | 100 | 300 + 200 | 10 | 1.0 | ||
3 A | 1 μA | DC | 30 | 60 + 40 | 5 | 2 |
45~200 | 100 | 200 + 100 | 10 | 1.2 | ||
200~1k | 100 | 300 + 200 | 10 | 1.0 | ||
10 A | 10 μA | DC | 30 | 60 + 40 | 5 | 2 |
45~200 | 100 | 150 + 50 | 10 | 1.2 | ||
200~1k | 100 | 200 + 100 | 10 | 1.0 | ||
30 A | 10 μA | DC | 30 | 60 + 40 | 5 | 2 |
45~200 | 100 | 150 + 50 | 10 | 1.0 | ||
200~1k | 100 | 200 + 100 | 10 | 0.6 | ||
100 A | 100 μA | DC | 30 | 60 + 40 | 5 | 1.5 |
45~200 | 100 | 150 + 50 | 10 | 0.8 | ||
200~1k | 100 | 200 + 100 | 10 | 0.5 | ||
Note [1]: RD is the reading value, RG is the range value, the same below |
• Output range: ± (60 mA~120 A), adjustment fineness: 0.001%*RG, 7-digit decimal display.
• Output frequency: DC, 40 Hz ~ 1 kHz, ripple coefficient/distortion: <0.5%
• Protection functions: open circuit protection, overload protection, overheating protection
6.2 Sensor Secondary Power Measurement
Current Range | 10 mA, 100 mA, 1 A, manual/automatic range switching |
Current Measurement Range | ± (1 mA ~ 1.1 A) |
Voltage Range | 100 mV, 1 V, 10 V, manual/automatic range switching |
Voltage Measurement Range | ± (10mV ~ 12V) |
Measurement Frequency | DC, AC 45 Hz ~ 1 kHz |
Measurement Uncertainty (k=2)(ppm*RD+ppm*RG) | DC: 30 + 20 |
AC: 60 + 40 | |
Display Digits | 7-digit decimal |
Note | [1]: RD is the reading value, RG is the range value, the same below |
6.3 Sensor Power Supply and Power Consumption Measurement
Supply Voltage | DC ± (5.0 V~50.0 V) adjustable |
Maximum Load Capacity | 1A |
Measurement Uncertainty (k=2) | Voltage / Current: 0.2%, Power: 0.5% |
Protective Function | Short circuit protection, overload protection, overheating protection |
7. General Specification
Power Supply | AC (220 ± 22) V, (50 ± 2) Hz |
Maximum Power Consumption | 1.5 kVA |
Preheat Time | 30mins |
Working Environment | Temperature: 0 °C~ 40 °C Humidity: 20%R H ~ 85%R H, non-condensing Others: No electromagnetic field interference. |
Storage environment | Temperature: -20 °C ~ 70 ° Humidity: <95%R H, non-condensing |
Communication Interface | RS232 x 1 |
Device Size | 440 mm (W) x 450 mm (D) x 230 mm (H) |
Weight | Approx 30 kg |
8. Accessory List
S/N | Pic | Name | Specification | Quantity | Note |
1 | Test leads | 1.5m, 1.5mm2, Φ4 gun insert Red and black | 2 each | Standard | |
2 | Test leads | 1.5m, 1.5mm2, Φ4 gun insert Green | 1 | Standard | |
3 | 100A Test leads | 1.5m, 25 mm2, Quick plug connector to Φ10 insert | 1 | Standard | |
4 | Power Cable | 3m, AC 250V, 16A | 1 | Standard | |
5 | Glass fuse | F4A, 250V | 4 | Standard | |
6 | Current sensor control interface cable | 0.8m, 8-pin Remo plug | 1 | Standard | |
7 | Connection adapter | Connection adapter DB9 to conventional terminal block | 1 | Standard | |
8 | Sensor cable | 0.8m, DB9 female socket | 1 | Standard | |
9 | Data communication line | RS232 to USB2.0 0.8m, DB9 female socket | 1 | Standard |
6. Specification
6.1 AC and DC Current Standard Sources
Current Range | Resolution | Frequency (Hz) | Short-term Stability (ppm/min) | Measurement Uncertainty(k=2) (ppm*RD+ppm*RG)[1] | Temperature Coefficient (ppm*RG/°C) | Compliance voltage (Vrms) |
300 mA | 100 nA | DC | 30 | 60 + 40 | 5 | 2 |
45~200 | 150 | 250 + 100 | 10 | 1.5 | ||
200~1k | 150 | 300 + 200 | 10 | 1.0 | ||
1 A | 1 μA | DC | 30 | 60 + 40 | 5 | 2 |
45~200 | 100 | 200 + 100 | 10 | 1.2 | ||
200~1k | 100 | 300 + 200 | 10 | 1.0 | ||
3 A | 1 μA | DC | 30 | 60 + 40 | 5 | 2 |
45~200 | 100 | 200 + 100 | 10 | 1.2 | ||
200~1k | 100 | 300 + 200 | 10 | 1.0 | ||
10 A | 10 μA | DC | 30 | 60 + 40 | 5 | 2 |
45~200 | 100 | 150 + 50 | 10 | 1.2 | ||
200~1k | 100 | 200 + 100 | 10 | 1.0 | ||
30 A | 10 μA | DC | 30 | 60 + 40 | 5 | 2 |
45~200 | 100 | 150 + 50 | 10 | 1.0 | ||
200~1k | 100 | 200 + 100 | 10 | 0.6 | ||
100 A | 100 μA | DC | 30 | 60 + 40 | 5 | 1.5 |
45~200 | 100 | 150 + 50 | 10 | 0.8 | ||
200~1k | 100 | 200 + 100 | 10 | 0.5 | ||
Note [1]: RD is the reading value, RG is the range value, the same below |
• Output range: ± (60 mA~120 A), adjustment fineness: 0.001%*RG, 7-digit decimal display.
• Output frequency: DC, 40 Hz ~ 1 kHz, ripple coefficient/distortion: <0.5%
• Protection functions: open circuit protection, overload protection, overheating protection
6.2 Sensor Secondary Power Measurement
Current Range | 10 mA, 100 mA, 1 A, manual/automatic range switching |
Current Measurement Range | ± (1 mA ~ 1.1 A) |
Voltage Range | 100 mV, 1 V, 10 V, manual/automatic range switching |
Voltage Measurement Range | ± (10mV ~ 12V) |
Measurement Frequency | DC, AC 45 Hz ~ 1 kHz |
Measurement Uncertainty (k=2)(ppm*RD+ppm*RG) | DC: 30 + 20 |
AC: 60 + 40 | |
Display Digits | 7-digit decimal |
Note | [1]: RD is the reading value, RG is the range value, the same below |
6.3 Sensor Power Supply and Power Consumption Measurement
Supply Voltage | DC ± (5.0 V~50.0 V) adjustable |
Maximum Load Capacity | 1A |
Measurement Uncertainty (k=2) | Voltage / Current: 0.2%, Power: 0.5% |
Protective Function | Short circuit protection, overload protection, overheating protection |
7. General Specification
Power Supply | AC (220 ± 22) V, (50 ± 2) Hz |
Maximum Power Consumption | 1.5 kVA |
Preheat Time | 30mins |
Working Environment | Temperature: 0 °C~ 40 °C Humidity: 20%R H ~ 85%R H, non-condensing Others: No electromagnetic field interference. |
Storage environment | Temperature: -20 °C ~ 70 ° Humidity: <95%R H, non-condensing |
Communication Interface | RS232 x 1 |
Device Size | 440 mm (W) x 450 mm (D) x 230 mm (H) |
Weight | Approx 30 kg |
8. Accessory List
S/N | Pic | Name | Specification | Quantity | Note |
1 | Test leads | 1.5m, 1.5mm2, Φ4 gun insert Red and black | 2 each | Standard | |
2 | Test leads | 1.5m, 1.5mm2, Φ4 gun insert Green | 1 | Standard | |
3 | 100A Test leads | 1.5m, 25 mm2, Quick plug connector to Φ10 insert | 1 | Standard | |
4 | Power Cable | 3m, AC 250V, 16A | 1 | Standard | |
5 | Glass fuse | F4A, 250V | 4 | Standard | |
6 | Current sensor control interface cable | 0.8m, 8-pin Remo plug | 1 | Standard | |
7 | Connection adapter | Connection adapter DB9 to conventional terminal block | 1 | Standard | |
8 | Sensor cable | 0.8m, DB9 female socket | 1 | Standard | |
9 | Data communication line | RS232 to USB2.0 0.8m, DB9 female socket | 1 | Standard |