Product Name Current Sensor Part No. GCBC100-2A Current sensor for PW Board mounting GCBC100-2A Data sheet Rev.1.4 e EC 2015.06.02 ALPS GREEN DEVICES CO., LTD. Attention: Modifications on specification, size, etc., may be carried out for improvement without notice. Rev1.4 e EC 2 June. 2015 Page:1/16 ALPS GREEN DEVICES CO., LTD. Product Name Current Sensor Part No. GCBC100-2A Table of contents 1. Introduction ................................................................................................................................... 3 2. Features and Advantages ............................................................................................................ 3 3. Principle ......................................................................................................................................... 3 4. Applications ................................................................................................................................... 3 5. Block Diagram and Typical Application...................................................................................... 4 5.1. 5.2. Block Diagram .......................................................................................................................... 4 Typical Application ................................................................................................................... 4 6. Dimensions and Terminal Designation ....................................................................................... 7 7. Operating Characteristics ............................................................................................................ 8 7.1. Absolute Maximum Ratings ..................................................................................................... 8 7.2. Operating Condition ................................................................................................................. 8 7.3. Recommended Operating Condition ........................................................................................ 8 7.4. Electrical Characteristics (No Load, Vdd=5.0V, Ta=25C) ...................................................... 8 7.5. Electrical Characteristics (RL=10k, Vdd=5.0V, Ta=25C)..................................................... 9 7.6. Start-up timing ........................................................................................................................ 10 7.6.1. Start-up ........................................................................................................................... 10 7.6.2. Low voltage detection ..................................................................................................... 10 7.7. Influence from the ambient magnetic field ............................................................................. 11 8. Characteristic Definitions ........................................................................................................... 12 9. Characteristic Data...................................................................................................................... 14 10. Recommended Soldering Conditions ................................................................................... 15 10.1. 10.2. Manual Soldering ............................................................................................................... 15 Flow Soldering .................................................................................................................... 15 11. Referential Land Pattern ......................................................................................................... 15 12. Extras ........................................................................................................................................ 16 Attention: Modifications on specification, size, etc., may be carried out for improvement without notice. Rev1.4 e EC 2 June. 2015 Page:2/16 ALPS GREEN DEVICES CO., LTD. Product Name Current Sensor Part No. GCBC100-2A 1. Introduction Current sensor GCBC series is for use on the electronic measurement of DC, AC, or pulsed currents with no contact. 2. Features and Advantages Coreless, small and lightweight(3g) design with high sensitivity magneto-resistive(MR) elements. Low primary-conductor resistance: 60. Good linearity: 0.5%F.S. +5V single power supply. Operating temperature: -40C~+105C. DC and AC current measurement with quick response. 3. Principle Current sensor detects the magnetic induction generated by the primary current to be measured. In the module, MR element with conditioning IC is located on the bus bar (path of the primary current). The magnetic field control board is arranged around bus bar and MR element so that module output with high sensitivity can be made. On the other hand, the output error by outer magnetic field, which has no relationship to the magnetic induction of primary current, is decreased. Fig.3-1 Principle of measurement Fig.3-2 The magnetic induction generated by the primary current (simulation) 4. Applications Motor drivers and general-purpose inverters, PV Inverter systems, Server power supplies, Packaged air-conditioning units, NC machine tools and other industrial and etc... Attention: Modifications on specification, size, etc., may be carried out for improvement without notice. Rev1.4 e EC 2 June. 2015 Page:3/16 ALPS GREEN DEVICES CO., LTD. Product Name Current Sensor Part No. GCBC100-2A 5. Block Diagram and Typical Application 5.1. Block Diagram Fig.5-1 Block Diagram of the module 5.2. Typical Application Refer to chapter 7.3 for the recommended operating condition of the load. (1) Basic connection Fig.5-2 Basic connection * Current sensor has a LPF with coefficients described in above figure. * Refer electrical characteristics to chapter 7.4, if RL can be regarded as no-load. Attention: Modifications on specification, size, etc., may be carried out for improvement without notice. Rev1.4 e EC 2 June. 2015 Page:4/16 ALPS GREEN DEVICES CO., LTD. Product Name Current Sensor Part No. GCBC100-2A (2) 3.3V input for A/D Fig.5-3 3.3V input for A/D * Use step down resistance to divide output voltage of the current sensor, if input voltage of A/D is 3.3V. (3) External filter circuit Fig.5-4 External filter circuit * Mount a LPF, if necessary. * Note that Two-stage LPF configuration due to connect an externally LPF, since a current sensor has a built-in LPF. (4) External filter circuit (in multiple) Fig.5-5 External filter circuit(in multiple) * Mount an op-amp buffer, if necessary. Attention: Modifications on specification, size, etc., may be carried out for improvement without notice. Rev1.4 e EC 2 June. 2015 Page:5/16 ALPS GREEN DEVICES CO., LTD. Product Name Current Sensor Part No. GCBC100-2A (5) Output treatment for the unknown state Start up time is necessary for this product. During that time, output signal becomes Hi-Z. If you want to fix the output voltage during that timing, please see below as your reference. Pull-up Fig.5-6 Pull-up * Fix the potential to 5V in the period of the Hi-Z, if it is necessary to keep +5V during start-up or low voltage detection as an output signal. * Refer to chapter 7.6 regarding start-up timing. * Note that output load RL of the current sensor is not less than 10k. Voltage Vout of the output is the resistance divider ratio of the 100 of built-in filter, if connect a pull-up resistor. Therefore, the use of precision resistors, such as 1% so that the error variation of the resistance partial pressure is not increased. Pull-down Fig.5-7 Pull-down * Fix the potential to 0V in the period of the Hi-Z, if it is necessary to keep 0V during start-up or low voltage detection as an output signal. * Refer to chapter 7.6 regarding start-up timing. * Note that output load RL of the current sensor is not less than 10k. Voltage Vout of the output is the resistance divider ratio of the 100 of built-in filter, if connect a pull-up resistor. Therefore, the use of precision resistors, such as 1% so that the error variation of the resistance partial pressure is not increased. * Refer electrical characteristics to chapter 7.5, if RL can be regarded as 10k. Attention: Modifications on specification, size, etc., may be carried out for improvement without notice. Rev1.4 e EC 2 June. 2015 Page:6/16 ALPS GREEN DEVICES CO., LTD. Product Name Current Sensor Part No. GCBC100-2A 6. Dimensions and Terminal Designation Current flow direction unit [mm] Attention: Sensor size may be changed. Fig.6-1 Dimensions No. 1 2 3 4 5 Table6-1 Terminal list table Name Description Vout Signal Output GND Ground VDD +5V Power Supply N Primary Current terminal (-) P Primary Current terminal (+) 5 4 1 2 3 Fig.6-2 Pin assignment Attention: Modifications on specification, size, etc., may be carried out for improvement without notice. Rev1.4 e EC 2 June. 2015 Page:7/16 ALPS GREEN DEVICES CO., LTD. Product Name Current Sensor Part No. GCBC100-2A 7. Operating Characteristics 7.1. Absolute Maximum Ratings No Parameter 1 Supply Voltage 2 3 4 5 6 7.2. Output Current (VOUTpin) Storage temperature Storage ambient magnetic field Maximum current (over current) Maximum continuous current Symbol Vdd Iout Min -0.3 -1.1 Iout Typ Max 5.5 1.1 Unit V mA -40 40 mA Ts -40 105 C Bs -8 8 mT Ipoc -110 110 A Irmcnt -50 50 A Symbol Vdd Min 4.85 Max 5.15 Unit V Ir -100 100 A Ta -40 105 C Max 0.5 100 Unit mA pF Note Vdd pin Vout pin, continuously Vout pin, pulse width 1s, Period 1kHz Operating Condition No Parameter 1 Supply Voltage Primary Current 2 Measuring Range Operating 3 Temperature 7.3. Typ 5.00 Note 3%(5.0V0.15V) DC100A Recommended Operating Condition No Parameter 1 Output Current 2 Load capacity 7.4. Symbol Iout CL Min -0.5 Typ Note VOUT pin VOUT pin Electrical Characteristics (No Load, Vdd=5.0V, Ta=25C) No Parameter 1 Offset Voltage (*1) 2 Offset Thermal Drift 3 Sensitivity (*2) Sensitivity 4 Temperature Drift 5 Linearity Symbol Vof TcVof Vo Min Typ 2.500 0.3 20.0 Max Unit Note V Vddx1/2 mV/C -40~+105C mV/A TcVo 0.02 %/C -40~+105C eL 0.2 %FS tr 1 s FS=Full Scale Input Current : di/dt=100A/s, 80%Response 6 Response Time 7 Current Consumption 8 Isolation Voltage Vins 1500 V 9 Insulation Resistance Rins 500 M 10 11 Hysteresis Error of Vof (*3) Primary Conductor Resistance (*3) Iddmax 18 mA Voh 3 mV R1 60 AC 50/60Hz,60s Sensor Unit DC500V Signal Terminal Batch With Bus bar Primary Current Measuring Range Attention: Modifications on specification, size, etc., may be carried out for improvement without notice. Rev1.4 e EC 2 June. 2015 Page:8/16 ALPS GREEN DEVICES CO., LTD. Product Name 7.5. Current Sensor Part No. GCBC100-2A Electrical Characteristics (RL=10k, Vdd=5.0V, Ta=25C) No Parameter Symbol Min Typ Max Offset Voltage 1 Vof 2.475 (*1, *3) 3 Sensitivity (*2, *3) Vo 19.8 Note: Only characteristics No.1 and 3 are different from No-load. Unit Note V Vdd=+5.00V mV/A * 1 Offset voltage will change in ratiometric to supply voltage. * 2 Sensitivity does not change in the ratiometric to the supply voltage. * 3 Reference only. Output voltage Vdd 1/2Vdd 4000mV (typ.) -100A 0 +100A Primary current Fig.7-1 Current vs. output voltage Attention: Modifications on specification, size, etc., may be carried out for improvement without notice. Rev1.4 e EC 2 June. 2015 Page:9/16 ALPS GREEN DEVICES CO., LTD. Product Name Current Sensor Part No. GCBC100-2A 7.6. Start-up timing 7.6.1. Start-up This current sensor has a conditioning IC. Conditioning IC will start the start up sequence under operation voltage after power supply is turned on. The transition to the normal state through the start-up time, Vout output will output a valid voltage. 7.6.2. Low voltage detection If the supply voltage drops to the operation voltage by instantaneous power failure, output signal will be stopped and become a Hi-Z by low voltage detention. To returns from the instantaneous power failure state, conditioning IC will restart the operation with operation voltage. Transition to the normal state through the start-up time, Vout output will output a valid voltage. During transition time to the normal operation, Vout signal has some variation (flapping) as an output signal, since closed loop of magnetic equilibrium expression is controlled by feedback to be equilibrium. Start up timing No Parameter 1 Operation start voltage 2 Operation stop voltage 3 Start-up time Symbol Vopu Vopl Tstup Min 4.05 3 1 Typ 4.4 3.5 Max 4.75 4.5 30 Unit V V ms Note Fig.7-2 Start up timing Attention: Modifications on specification, size, etc., may be carried out for improvement without notice. Rev1.4 e EC 2 June. 2015 Page:10/16 ALPS GREEN DEVICES CO., LTD. Product Name Current Sensor Part No. GCBC100-2A 7.7. Influence from the ambient magnetic field This current sensor uses a magnetic sensor for a current detecting. It is influenced by ambient magnetic field. Reference information to minimize the influence from the ambient magnetic are described below. The transformer and the inductor generate the leakage flux , It is affected by the accuracy of the current sensor by the leakage flux. It especially most affected to the magnetic flux of the X-axis direction. Please decide component location after your evaluation. If the current path running parallel in close to the current sensor, The accuracy of the current sensor is affected by magnetic flux from the another current path. It especially most affected to the magnetic flux of the Y-axis direction. Please decide PCB pattern design after your evaluation. Z-axis Y-axis X-axis Fig.7-3 Direction of the magnetic flux Attention: Modifications on specification, size, etc., may be carried out for improvement without notice. Rev1.4 e EC 2 June. 2015 Page:11/16 ALPS GREEN DEVICES CO., LTD. Product Name Current Sensor Part No. GCBC100-2A 8. Characteristic Definitions The contents of the main characteristics are shown below. Standard conditions and the standard state in each item are defined below. Standard condition: Ambient temperature 25C The state of the standard: Supply voltage (DC+5.00V) with No Load. (1) Offset Voltage The output voltage when the primary current is 0A. (2) Offset Thermal Drift Change of the offset voltage within the range of the operating temperature. The value is the amount of the change per 1 degree calculated with the output at 25 degrees as the reference. (3) Sensitivity The slope of the estimated output. The least squares method from the output voltages for the primary current within rating is used. (4) Sensitivity Temperature Drift Change of the gain within the operating temperature range. The value is the ratio of the change per 1 degree calculated with the gain at 25 degrees as the reference. (5) Linearity The error of the output voltage between measured and estimated. The least squares method from the output voltages at rated primary current, its half current, 0A(offset voltage), is used. The value is calculated using equation; Non Linearity = { (Measured Vout - Estimated Vout) / (Output voltage at positive maximum current of measurement current range Output voltage at negative maximum current of measurement current range) } x 100(%FS) Vout Vout -Estimated Vout -100A 0 +100A Primary current Fig.8-1 Non linearity Attention: Modifications on specification, size, etc., may be carried out for improvement without notice. Rev1.4 e EC 2 June. 2015 Page:12/16 ALPS GREEN DEVICES CO., LTD. Product Name Current Sensor Part No. GCBC100-2A (6) Response Time Fig.8-2 shows the response time of output (dT) when primary current is square wave which have 100A/us rise/fall time. Response time is defined as the time between 80% change point of input wave and output. 80% 80% dT Fig.8-2 Response Time (7) Current Consumption The bus bar rating pass an electric current this current consumption measure. (8) Isolation Voltage 1500V in the AC voltage, 50Hz, and 60sec are impressed to the bus bar with the control terminal batch under. (9) Insulation Resistance It measures between the control terminal batch and the bus bar with Meg ohm meter (DC500V) under the standard condition. (10) Hysteresis Absolute value of the difference of the output when the primary current is 0A between after rated positive primary current is added and negative one is added. Attention: Modifications on specification, size, etc., may be carried out for improvement without notice. Rev1.4 e EC 2 June. 2015 Page:13/16 ALPS GREEN DEVICES CO., LTD. Product Name Current Sensor Part No. GCBC100-2A 9. Characteristic Data 5.0 1.0 4.5 0.8 4.0 0.6 3.5 0.4 Linearity (%FS) Output Voltage (V) Example of typical characteristics. 3.0 2.5 2.0 0.2 0.0 -0.2 1.5 -0.4 1.0 -0.6 0.5 -0.8 0.0 -1.0 -120 -100 -80 -60 -40 -20 0 20 40 60 80 100 120 -120 -100 -80 -60 -40 Primary Current (A) Fig.9-1 Output voltage -20 0 20 40 Primary Current (A) 60 80 100 120 Fig.9-2 Linearity 20 10 16 14 Output Voltage (V) Consumption Current (mA) 250 9 12 10 8 6 4 2 200 Current probe 8 150 7 100 6 50 5 0 4 -50 3 -100 2 -150 1 0 -120 -100 -80 -60 -40 -20 0 20 40 60 80 -200 -5 100 120 0 5 10 15 20 25 Time (usec) Primary Current (A) Fig.9-3 Consumption Current Fig.9-4 Response time 2.70 22.0 Offset Drift: -0.02/+0.28mV/deg.C 2.65 Gain Drift: +0.02/+0.01%/deg.C 21.5 2.60 21.0 Gain (mV/A) Offset Voltage(V) Output Voltage 80%response0.5sec Current Probe (A) 18 2.55 2.50 2.45 20.5 20.0 19.5 2.40 19.0 2.35 18.5 18.0 2.30 -50 -25 0 25 50 75 Temperature (deg.C) 100 125 -50 -25 0 25 50 75 100 125 Temperature (deg.C) Fig.9-5 Offset voltage vs. temperature Fig.9-6 Gain vs. temperature Attention: Modifications on specification, size, etc., may be carried out for improvement without notice. Rev1.4 e EC 2 June. 2015 Page:14/16 ALPS GREEN DEVICES CO., LTD. Product Name Current Sensor Part No. GCBC100-2A 10. Recommended Soldering Conditions 10.1. Manual Soldering Temperature 3505C Time 3 sec. max. Number of Times 2 times max. Note: The rise in heat of current sensor is influenced by the solder trowel and the mounting substrate. Please control so that the temperature of the primary current terminal does not exceed 260C, when the above-mentioned conditions are impossible. 10.2. Flow Soldering Preheating Substrate surface temperature Preheat time 120C 60 sec. Soldering Soldering Tank Temperature Soldering Portion Temperature Soldering Time 2605C 220C min. 3sec. min. 10sec. max. 11. Referential Land Pattern Referential land pattern is shown here. Fig.11-1 Referential Land Pattern Unit: mm Attention: Modifications on specification, size, etc., may be carried out for improvement without notice. Rev1.4 e EC 2 June. 2015 Page:15/16 ALPS GREEN DEVICES CO., LTD. Product Name Current Sensor Part No. GCBC100-2A 12. Extras All information described in this document is intended only as guidance to explain operation and how to use this product, and we do not warrant that this information is not infringe any intellectual property rights of us and any third party and other rights. In case of using all information described in this document, you agree that you are solely judgment and responsible for it. Therefore, you must be in any way responsible or liable for any damages, expenses or losses incurred by you or third parties arising from the use of this information. Absolute maximum rating is the value that should not be exceeded. When used beyond the conditions in one item, breakage or shift of the characteristics without lead to damage, may affect the reliability and life. In addition, normal operation is not guaranteed. Electrical characteristics may not be guaranteed, if use more than the operating conditions or the recommended operating conditions. The characteristics on this datasheet are the example with NO load and 10kOhm pull-down. Please note that output voltage varies depending on the load resistance. The primary current must be below rating. The residual output may cause when the current over rating is added. Do not expose the product to strong magnetic field. The residual output may cause. Do not use the product if it is fallen. The residual output may cause. Damage may occur by unusual heat when large or constant primary current is added. The amount of heat depends on the current and heat radiation. The control wire should be set as short as possible to avoid the outside noise. Before determine placement and wiring of any parts, please be fully evaluated. Magnetic flux leaking from the adjacent magnetic parts and magnetic flux generated from the pattern of the PWB which a large current flows, adversely affect the electrical characteristics. For the export of products which are controlled items subject to foreign and domestic export laws and regulations, you must obtain approval and/or follow the formalities of such laws and regulations. Products must not be used for military and/or antisocial purposes such as terrorism, and shall not be supplied to any party intending to use the products for such purposes. Unless provided for otherwise, the products have been designed and manufactured for application in equipment and devices which are sold to end users in the market, including audio-visual (AV) equipment, electrical home appliances, office machines, information and communication equipment, and amusement equipment. The products are not intended for use in, and must not be used for, any application for nuclear equipment, driving equipment for aerospace or any other unauthorized use. With the exception of the abovementioned prohibited applications, please contact an Alps sales representative and/or evaluate the total system regarding applicability for applications involving high levels of safety and liability such as medical equipment, burglar alarm equipment, disaster prevention equipment and undersea equipment. Please also incorporate fail-safe design, protection and redundant circuitry, malfunction protection, and/or fire protection into the complete system to ensure safety and reliability of the total system. Before using products which were not specifically designed for use in automotive applications, please contact an Alps sales representative. Attention: Modifications on specification, size, etc., may be carried out for improvement without notice. Rev1.4 e EC 2 June. 2015 Page:16/16 ALPS GREEN DEVICES CO., LTD.