CSA-1V Preliminary Rev. 005 June 2013 CSA-1V IMC-Hall® Current Sensor Features: ® IMC-Hall technology - Very high sensitivity due to integrated magnetic concentrator Sensitive to a magnetic field parallel to the chip surface Linear output voltage proportional to a magnetic field Wide-band: DC to 100kHz Very low offset and offset-drift Very low noise Isolated from current conductor Surface mount SOIC-8 package Applications: AC and/or DC current measurement Wide-Band Magnetic Field Measurement Battery Chargers AC-DC Converters Motor Control General Description The CSA-1V is a single-axis integrated magnetic field sensor based on the Hall effect. It produces a linear, ratio-metric output voltage proportional to the applied magnetic field parallel with the chip surface. The circuit is fabricated using a standard CMOS process. The additional ferromagnetic layer ® (IMC-Hall ) that is added in a simple post-processing step, amplifies the magnetic field and concentrates it on the Hall elements. Therefore the circuit features very high magnetic sensitivity, low offset, and low noise. The CSA-1V is packaged in a standard SOIC-8 full plastic package and suitable for up to 600V isolation voltage between the sensor and a conductor on PCB. Please find the latest version of this datasheet and related information such as application notes on our website http://www.melexis.com/Hall-Effect-Sensor-ICs Package: SOIC-8 Pin Out: B 1 2 3 4 5 6 7 8 A_OUT, analog sensor output VDD pos. supply voltage Not connected 1) PV, programming voltage GND, supply common 1) PD, programming data 1) PC, programming clock CO_OUT, common output Note 1: Used for factory programming Page 1 of 6 Sentron AG, a Melexis Company www.melexis.com [email protected] for North America: GMW Associates Tel: +1 (650) 802-8292 Fax: +1 (650) 802-8298 [email protected] CSA-1V Preliminary Rev. 005 June 2013 Absolute Maximum Ratings Symbol VSUP T Parameter Supply Voltage Ambient Temperature Min. 0 -40 Typ. Max. 6 +125 Unit V o C Remarks Min. Typ. Max. Unit Remarks 4.5 -1 5 5.5 1 1000 V mA pF Recommended Operating Conditions Symbol VSUP IOUT CL Parameter Supply Voltage Output Current Load Capacitance Defined by design Electrical Characteristics At T=-40°C to 125°C, VSUP=4.5V to 5.5V if not otherwise specified. Symbol ISUP VCommon BW tR Parameter Supply Current Common (reference) 2) Output Voltage Bandwidth: DC to Response Time Min. Typ. 11 Max. 16 -50 VSUP/2 +50 Unit mA Test Conditions IOUT=0mA 100 8 kHz μs Note 2: Ratiometric (proportional to VSUP) Characteristics of the Linear Magnetic Field Sensor 3,4) o o With VSUP= 5V and in the temperature range -40 C to 125 C, if not otherwise specified. Symbol Parameter Min. Typ. Max. Unit 275 280 285 V/T Test Conditions o Magnetic Sensitivity at 25 C S 3) 6) S/ST Magn. Sensitivity Temperature Drift Voff Offset Voltage at 25 C Voff/T Offset Temperature Drift BFS Full Scale Magnetic Field 5) Range -10 10 mT BL Linear Magnetic Field Range -7.5 7.5 mT NL Non Linearity ±0.2 ±0.5 % Bnoise Input referred magnetic noise spectrum density (RMS) <125 nT/Hz <± 0.02 o -20 0 %/°C 20 <± 0.2 mV mV/°C B = BL IOUT=0mA T=-20°C to 125°C B=0T, Iout=0mA, T=20°C B=0T, IOUT=0mA, T=-20°C to 125°C B = BL B = BFS f=10Hz to 10kHz Note 3: Ratiometric (proportional to VSUP ) Note 4: When the analog output pin A_OUT is used in differential mode (i.e. Vout = A_OUT-CO_OUT) Note 5: Device saturates for B>BFS, but is not damaged Note 6: The absolute accuracy on magnetic sensitivity trimming is +/- 2% Sentron AG reserves the right to make changes without further notice to any products herein to improve reliability, function, or design. Sentron does not assume any liability arising from the use of any product or application of any product or circuit described herein. Page 2 of 6 Sentron AG, a Melexis Company www.melexis.com [email protected] for North America: GMW Associates Tel: +1 (650) 802-8292 Fax: +1 (650) 802-8298 [email protected] CSA-1V Preliminary Rev. 005 June 2013 Block Diagram Fig. 1 Block diagram of CSA-1V IMPORTANT For reliable operation within the specifications the sensor must be connected as follows: Connect Pin 6 (PD) to Pin 5 (GND) Connect Pin 7 (PC) to Pin 2 (Vdd) Connect Pin 4 (PV) to Pin 2 (Vdd) Put a 100nF capacitor close to the chip between Pin 2 (Vdd) and Pin 5 (GND) VSUP CSA-1V 1 A_Out CO_OUT 8 2 Vdd PC 7 3 n.c. PD 6 4 PV GND 5 GND 100nF* GND * If the supply voltage is disturbed by EMI it can be useful to place a second capacitor (100pF, ceramic) parallel to the 100nF capacitor. Fig. 2 Connection diagram of CSA-1V Page 3 of 6 Sentron AG, a Melexis Company www.melexis.com [email protected] for North America: GMW Associates Tel: +1 (650) 802-8292 Fax: +1 (650) 802-8298 [email protected] CSA-1V Preliminary Rev. 005 June 2013 Package Information SOIC-8 B: Magnetic sensitive direction B 0.018 (0.45) Fig. 3 Package information and magnetic sensitive direction Package versions Leaded (standard): CSA-1V Material: C151, 85/15 Lead free ‘green’: CSA-1V-G Material: CDA151, Pb <100ppm Page 4 of 6 Sentron AG, a Melexis Company www.melexis.com [email protected] for North America: GMW Associates Tel: +1 (650) 802-8292 Fax: +1 (650) 802-8298 [email protected] CSA-1V Preliminary Rev. 005 June 2013 Typical Applications Busbar Current Measurement The current conductor is situated above the chip. A current conductor is placed at a certain distance above or beyond the chip. The magnetic field around a long current wire is described by H=I/2πr. The flux density at the place of the sensor depends upon the current in the wire I and the distance between sensor and wire r: B= μ0*I/2 πr. All examples for S=280V/T Max current [A] Distance sensor to wire [mm] Sensitivity [mV/A] Approx. Resolution (raw) [A] 10 50 100 500 1000 0.2 2 4 20 40 120 25 12 3 1.5 0.1 0.5 1 3.5 7 Approx. Resolution (tINT=1ms) [A] 0.01 0.05 0.1 0.35 0.7 Typ. Linearity Error [%] <0.2 PCB Current Measurement The current conductor is situated below the chip (on PCB). The CSA-1V current sensor is placed on a PCB directly over the current track. The current track can consist of one or several loops, depending on the maximum current to be measured. The sensor measures the magnetic field emanating from the current flowing through the tracks. Typically obtained values for for this type of application are (width of PCB current track 2.5mm): Max current(*) [A] DC / pulsed No of tracks under sensor Sensitivity [mV/A] Resolution (raw) [mA] 2 / 10 4 140 70 10 / 50 1 35 280 (*) max current depends on PCB properties/thermal budget Resolution tINT=1ms [mA] 7 28 Typ. Linearity Error [%] <0.2 Please contact us for documentation such as application notes, technical papers and others. Page 5 of 6 Sentron AG, a Melexis Company www.melexis.com [email protected] for North America: GMW Associates Tel: +1 (650) 802-8292 Fax: +1 (650) 802-8298 [email protected] CSA-1V Preliminary Rev. 005 June 2013 This document is published by: Sentron AG, a Melexis Company For Technical and Commercial Support: For North America: www.gmw.com, [email protected] For the rest of the world: www.melexis.com, [email protected] Application notes are available on the website. IMPORTANT NOTICE / DISCLAIMER Devices sold by Sentron are covered by the warranty and patent indemnification provisions appearing in its Term of Sale. Sentron makes no warranty, express, statutory, implied, or by description regarding the information set forth herein or regarding the freedom of the described devices from patent infringement. Sentron reserves the right to change specifications and prices at any time and without notice. Therefore, prior to designing this product into a system, it is necessary to check with Sentron for current information. This product is intended for use in normal commercial applications. Applications requiring extended temperature range, unusual environmental requirements, or high reliability applications, such as military, medical life-support or life-sustaining equipment are specifically not recommended without additional processing by Sentron for each application. The information furnished by Sentron is believed to be correct and accurate. However, Sentron shall not be liable to recipient or any third party for any damages, including but not limited to personal injury, property damage, loss of profits, loss of use, interrupt of business or indirect, special incidental or consequential damages, of any kind, in connection with or arising out of the furnishing, performance or use of the technical data herein. No obligation or liability to recipient or any third party shall arise or flow out of Sentron’s rendering of technical or other services. © 2005 Sentron AG. All rights reserved. Page 6 of 6 Sentron AG, a Melexis Company www.melexis.com [email protected] for North America: GMW Associates Tel: +1 (650) 802-8292 Fax: +1 (650) 802-8298 [email protected]