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FMCC EUROPE
Components and technical solutions for power electronics
Industry Current Sensors HBO Range
| A single size for every rating With a single size for every rating (from 100 A to 1000 A), HBO current sensors give you the possibility of increasing equipment standardisation. A precise response to customer expectations The HBO sensor has been designed using Open Loop Hall effect technology, thereby adding a whole new type to the various sensor technologies used by ABB. The HBO range enables ABB to offer an additional range of sensors that are suitable for less technically demanding applications and ensure best cost competitiveness. Customers are therefore free to choose the most suitable solution for their applications. Vertical or horizontal Assemblers can choose 2 methods of fastening ABB sensors: horizontally or vertically.  |  |
| QUALITY The chief selling-point of HBO sensors is their quality. Compliance of their high-tech electronic design with standard EN 50178 is proof of their ability to comply with the most detailed constraint as well as major demands. The fact that each individual sensor is subjected to rigorous testing is proof of the importance ABB attribute to quality. | Quality that goes beyond standards ABB have been ISO 9001 certified since 1993 and our standard HBO sensors bear the CE label in Europe. This ongoing striving after quality has always been the hallmark of a company where excellence and safety are part of the culture, from design right through to production. This culture is the result of continuous research to make technical progress and meet our customers' demands. ECOLOGY ABB have long been concerned with the protectionof the environment, as proved by the ISO 14001 certification they received in 1998. This environmental approach is particularly noticeable in the production of the HBO range in the reduction of the number of components, in the use of a low-energy manufacturing procedure and the use of recyclable packing. The products in use are also characterized by their reduced energy consumption.  |
| Utilisation Sensors to measure d.c., a.c. or pulsating currents with a galvanic insulation between primary and secondary circuits. |  |
| HBO100 | HBO200 | HBO300 | HBO400 | |||
| Nominal primary current (IPN) | A r.m.s. | 100 | 200 | 300 | 400 | |
| Measuring range | @ ±15V (±5%) | A peak | ±300 | ±600 | ±900 | ±1100 |
| Output voltage at IPN | V | ±4 | ±4 | ±4 | ±4 | |
| Supply voltage | ±5% | V d.c. | ±12 ... ±15 | ±12 ... ±15 | ±12 ... ±15 | ±12 ... ±15 |
| Load resistance | kΩ | >1 | >1 | >1 | >1 | |
| Internal output resistance | ±5% | Ω | 12 | 12 | 12 | 12 |
| Current consumption | | mA | <25 | <25 | <25 | <25 |
Rated voltage1 | V r.m.s. | 500 | 500 | 500 | 500 | |
Insulation resistance | @ 500V d.c. | MΩ | >500 | >500 | >500 | >500 |
| Accuracy2 at Ipn | @ +25°C RL>10kΩ, ±15V, 50Hz | % | ≤±1 | ≤±1 | ≤±1 | ≤±1 |
| Accuracy2 at Ipn | @ +25°C RL>0kΩ, ±12V ... ±15V, 50Hz | % | ≤±1.5 | ≤±1.5 | ≤±1.5 | ≤±1.5 |
| Output offset | @ +25°C, IP = 0, ±15V | mV | ≤±10 | ≤±10 | ≤±10 | ≤±10 |
Output offset | @ +25°C, IP = 0, ±12V ... ±15V | mV | ≤±15 | ≤±15 | ≤±15 | ≤±15 |
Additional offset after an overload of IPMAX | @ +25°C, IP = 0, ±15V | mV | ≤±10 | ≤±10 | ≤±10 | ≤±10 |
| Output offset thermal drift | -25°C... +85°C | µA/°C | ≤1 | ≤1 | ≤1 | ≤1 |
| Linearity2 | % | ≤0.5 | ≤0.5 | ≤0.5 | ≤0.5 | |
Gain thermal drift | -25°C... +85°C, @ ±15V(±5%) | %/°C | <0.05 | <0.05 | <0.05 | <0.05 |
| Delay time | µs | ≤3 | ≤3 | ≤3 | ≤3 | |
| di/dt correctly followed | A / µs | ≤50 | ≤50 | ≤100 | ≤100 | |
| Bandwidth | -3dB | kHz | ≤100 | ≤100 | ≤100 | ≤100 |
| Dielectric strength Primary/Secondary | 50Hz, 1min | kV r.m.s. | 3.5 | 3.5 | 3.5 | 3.5 |
Mass | kv | 0.200 | 0.200 | 0.200 | 0.200 | |
Operating temperature | °C | -25 ... +85 | -25 ... +85 | -25 ... +85 | -25 ... +85 | |
Storage temperature | °C | -40 ... +85 | -40 ... +85 | -40 ... +85 | -40 ... +85 | |
General data ● Plastic case and insulating resin are self-extinguishing. Primary connection Hole for primary conductor.The temperature of the primary conductor in contact with the case must not exceed 100°C. | Secondary connection ● Molex HE14 4 pin connector (ref. 22-04-1041) |
 |
| HBO500 | HBO600 | HBO1000 | |||
| Nominal primary current(IPN) | A r.m.s. | 500 | 600 | 1000 | |
| Measuring range | @ ±15V (±5%) | A peak | ±1200 | ±1300 | ±1500 |
| Output voltage at IPN | V | ±4 | ±4 | ±4 | |
| Supply voltage | ±5% | V d.c. | ±12 ... ±15 | ±12 ... ±15 | ±12 ... ±15 |
| Load resistance | kΩ | >1 | >1 | >1 | |
| Internal output resistance | ±5% | Ω | 12 | 12 | 12 |
| Current consumption | | mA | <25 | <25 | <25 |
Rated voltage1 | V r.m.s. | 500 | 500 | 500 | |
Insulation resistance | @ 500V d.c. | MΩ | >500 | >500 | >500 |
| Accuracy2 at Ipn | @ +25°C RL>10kΩ, ±15V, 50Hz | % | ≤±1 | ≤±1 | ≤±1 |
| Accuracy2 at Ipn | @ +25°C RL>0kΩ, ±12V ... ±15V, 50Hz | % | ≤±1.5 | ≤±1.5 | ≤±1.5 |
| Output offset | @ +25°C, IP = 0, ±15V | mV | ≤±10 | ≤±10 | ≤±10 |
Output offset | @ +25°C, IP = 0, ±12V ... ±15V | mV | ≤±15 | ≤±15 | ≤±15 |
Additional offset after an overload of IPMAX | @ +25°C, IP = 0, ±15V | mV | ≤±10 | ≤±10 | ≤±10 |
| Output offset thermal drift | -25°C... +85°C | µA/°C | ≤±1 | ≤±1 | ≤±1 |
| Linearity2 | % | ≤0.5 | ≤0.5 | ≤0.5 | |
Gain thermal drift | -25°C... +85°C, @ ±15V(±5%) | %/°C | ≤0.05 | ≤0.05 | ≤0.05 |
| Delay time | µs | ≤3 | ≤3 | ≤3 | |
| di/dt correctly followed | A / µs | ≤50 | ≤50 | ≤100 | |
| Bandwidth | -3dB | kHz | 0 ... 50 | 0 ... 50 | 0 ... 50 |
| Dielectric strength Primary/Secondary | 50Hz, 1min | kV r.m.s. | 3.5 | 3.5 | 3.5 |
Mass | kv | 0.200 | 0.200 | 0.200 | |
Operating temperature | °C | -25 ... +85 | -25 ... +85 | -25 ... +85 | |
Storage temperature | °C | -40 ... +85 | -40 ... +85 | -40 ... +85 | |
Accessories and options Female Molex connecto | Conformity ● EN50178 |