MCS1806GS-5-20-Z

MCS1806 3kVRMS Isolated Hall-Effect Current Sensor with 500VRMS Working Voltage, ±2.5% Accuracy DESCRIPTION FEATURES The MCS1806 is a linear Hall-effect current sensor for AC or DC current sensing. The Hall array is differential, which cancels out any stray magnetic field. • • • • • • • • • • • • • A primary conductor with a low resistance allows the current to flow close to the IC, which contains high-accuracy Hall-effect sensors. This current generates a magnetic field that is sensed at two different points by the integrated Hall-effect transducers. The magnetic field difference between these two points is then converted into a voltage that is proportional to the applied current. A spinning current technique is used for a low, stable offset. 3.3V or 5V Single-Supply Options Immune to External Magnetic Fields via Differential Sensing 3kVRMS Minimum Isolation Voltage 500VRMS Maximum Working Voltage ±2.5% Total Accuracy 0.9mΩ Internal Conductor Resistance ±5A to ±50A Bidirectional Range Adjustable Bandwidth Up to 100kHz Ratiometric Output from Supply Voltage Output Proportional to AC or DC Currents Factory-Trimmed for Accuracy No Magnetic Hysteresis Available in an SOIC-8 Package The galvanic isolation between the pins of the primary conductive path and the sensor leads allows the MCS1806 to replace optoisolators and other isolation devices. The MCS1806 requires a minimal number of readily available, standard external components. The device’s small SOIC-8 footprint saves board area and makes it well-suited for spaceconstrained applications. APPLICATIONS • • • • • • Multi-Phase Inverters Motor Controls Automotive Systems Load Detection and Management Switch-Mode Power Supplies Over-Current Fault Protection All MPS parts are lead-free, halogen-free, and adhere to the RoHS directive. For MPS green status, please visit the MPS website under Quality Assurance. “MPS”, the MPS logo, and “Simple, Easy Solutions” are trademarks of Monolithic Power Systems, Inc. or its subsidiaries. TYPICAL APPLICATION (1) VCC 1 2 IP+ IP+ VCC VOUT 8 7 VOUT CBYP MCS1806 IP 3 4 IP- IP- FILT GND 6 5 CF Note: 1) VOUT is proportional to IP within the specified range. The noise vs. bandwidth tradeoff can be adjusted by connecting a capacitor (CF) between FILT and GND. MCS1806 Rev. 1.1 MonolithicPower.com 9/8/2022 MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2022 MPS. All Rights Reserved. 1 MCS1806 – LINEAR HALL-EFFECT CURRENT SENSOR WITH ±2.5% ACCURACY ORDERING INFORMATION Part Number* MCS1806GS-3-05 MCS1806GS-3-10 MCS1806GS-3-20 MCS1806GS-3-30 MCS1806GS-3-40 MCS1806GS-3-50 MCS1806GS-5-05 MCS1806GS-5-10 MCS1806GS-5-20 MCS1806GS-5-30 MCS1806GS-5-40 MCS1806GS-5-50 Typ Supply Voltage (V) 3.3 3.3 3.3 3.3 3.3 3.3 5 5 5 5 5 5 Optimized Primary Current Range (A) ±5 ±10 ±20 ±30 ±40 ±50 ±5 ±10 ±20 ±30 ±40 ±50 Typ Sensitivity (Sens) (mV/A) 264 132 66 44 33 26.4 400 200 100 66 50 40 Top Marking MSL Rating MCS1806 1 * For Tape & Reel, add suffix -Z (e.g. MCS1806GS-3-05-Z). TOP MARKING MCS1806 LLLLLLLL MPSYWW MCS1806: Part number LLLLLLLL: Lot number MPS: MPS prefix Y: Year code WW: Week code PACKAGE REFERENCE TOP VIEW IP+ 1 8 VCC IP+ 2 7 VOUT IP- 3 6 FILT IP- 4 5 GND SOIC-8 (5mmx4mm) MCS1806 Rev. 1.1 MonolithicPower.com 9/8/2022 MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2022 MPS. All Rights Reserved. 2 MCS1806 – LINEAR HALL-EFFECT CURRENT SENSOR WITH ±2.5% ACCURACY PIN FUNCTIONS Pin # Name 1, 2 IP+ 3, 4 IP- 5 GND 6 FILT 7 VOUT 8 VCC Description Primary current (+). IP+ is a terminal pin for the current being sampled. The IP+ pins are internally connected together. Primary current (-). IP- is a terminal pin for the current being sampled. The IP- pins are internally connected together. Ground. Signal ground terminal pin. Filter. FILT is a terminal pin for the external capacitor (CF), which sets the bandwidth. FILT can be left floating if the bandwidth setting is not required. Analog output. Voltage supply. Bypass with a 1µF low-ESR ceramic capacitor, placed as close to VCC pin as possible. ABSOLUTE MAXIMUM RATINGS (2) Recommended Operating Conditions (3) Supply voltage (VCC) .......................-0.1V to +6V Output voltage (VOUT) ......................-0.1V to +6V VFILT .................................................-0.1V to +6V Junction temperature ................................165°C Lead temperature .....................................260°C Storage temperature ................ -65°C to +165°C Supply voltage (VCC) for the 3.3V option............. ........................................................ 3.0V to 3.6V Supply voltage (VCC) for the 5V option................ ........................................................ 4.5V to 5.5V Operating junction temp (TJ) .....-40°C to +125°C ESD Ratings Human body model (HBM) ........................ ±2kV Charged device model (CDM) ................... ±2kV Notes: 2) 3) Exceeding these ratings may damage the device. The device is not guaranteed to function outside of its operating conditions. MCS1806 Rev. 1.1 MonolithicPower.com 9/8/2022 MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2022 MPS. All Rights Reserved. 3 MCS1806 – LINEAR HALL-EFFECT CURRENT SENSOR WITH ±2.5% ACCURACY ISOLATION CHARACTERISTICS Parameters Dielectric surge strength test voltage Symbol Conditions Rating Units VSURGE Test ±5 pulses at 2/minute, 1.2µs (rise)/50µs (width) according to IEC61000-4-5 6000 V Withstand isolation voltage VISO Agency type-tested for 60 seconds according to IEC62368-1, 100% tested in production according to IEC62368-1 3000 VRMS Maximum isolation working voltage VIOWM Maximum approved working voltage for basic isolation according to IEC62368-1 700 500 VPK or VDC VRMS External clearance CLR Shortest distance through the air from the IP leads to the signal leads 4.2 mm External creepage CPG Shortest distance along the package body from the IP leads to the signal leads 4.2 mm Rating Units Test ±5 pulses at 2/minute, 8µs (rise)/20µs (width) according to IEC61000-4-5 3000 A Single peak, 10ms 250 A WITHSTANDING CURRENT CAPABILITY Parameters Symbol Surge current test ISURGE Transient current test (4) ITRANSIENT Conditions Note: 4) For the detailed transient current capability test, refer to MPS application note AN178, available on the MPS website. MCS1806 Rev. 1.1 MonolithicPower.com 9/8/2022 MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2022 MPS. All Rights Reserved. 4 MCS1806 – LINEAR HALL-EFFECT CURRENT SENSOR WITH ±2.5% ACCURACY MCS1806 COMMON ELECTRICAL CHARACTERISTICS VCC = 3.3V for 3.3V option and VCC = 5V for 5V option, TJ = -40°C to +125°C, typical values at TJ = 25°C, unless otherwise noted. Parameters Supply voltage VCC under-voltage lockout (UVLO) threshold VCC UVLO hysteresis Operating supply current Output capacitance load (9) Output resistive load (9) Internal filter resistance Internal filter capacitance Primary conductor resistance (10) Frequency bandwidth Power-on time Rising time Propagation delay Response time Symbol VCC VCC_UVLO Max 3.6 5.5 Units V V 2 2.5 3 V 400 8.5 750 10.5 10 1.5 1 mV mA nF kΩ kΩ nF 4.7 0.9 mΩ fBW tPO tR tPD FILT disconnected IP = IPMAX, FILT disconnected IP = IPMAX, FILT disconnected IP = IPMAX, FILT disconnected IP = IPMAX, FILT disconnected 100 90 4 1.5 5 Input referred noise density 200 kHz µs µs µs µs µA(RMS)/ √Hz tRESPONSE IN First Hall magnetic coupling factor Second Hall magnetic coupling factor Hall plate matching Typ (5) Effective Noise Zero-current output voltage Min 3 4.5 RP IND Ratiometry coefficients (9) VCC rising VCC_UVLO_HYS ICC CL From VOUT to GND RL From VOUT to GND RFI CFI Noise density Nonlinearity Condition 3.3V option 5V option ELIN KSENS KVO VOUT(Q) Input referred, 1nF on FILT (60kHz bandwidth) Across full IP range 50 mA(RMS) 0.5 % VCC from VCC_MIN to VCC_MAX 98 100 102 % VCC from VCC_MIN to VCC_MAX 99 100 101 % IP = 0A VCC / 2 V PMCF1 0.6 mT/A PMCF2 0.3 mT/A MH ±1 % 3.3V option, RL = 4.7kΩ VOUT(H) 5V option, RL = 4.7kΩ Saturation voltage (6) (9) VOUT(L) VCC 0.3 VCC 0.5 3.3V option, RL = 4.7kΩ 5V option, RL = 4.7kΩ MCS1806 Rev. 1.1 MonolithicPower.com 9/8/2022 MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2022 MPS. All Rights Reserved. V V 0.3 0.5 V V 5 MCS1806 – LINEAR HALL-EFFECT CURRENT SENSOR WITH ±2.5% ACCURACY MCS1806-3-05 PERFORMANCE CHARACTERISTICS VCC = 3.3V, TJ = -40°C to +125°C, unless otherwise noted. Parameters Optimized accuracy range (7) Sensitivity Sensitivity error Offset voltage (8) Total output error Symbol Condition IP SENS -5A ≤ IP ≤ +5A, TJ = 25°C IP = 5A, TJ = 25°C to 125°C ESENS IP = 5A, TJ = -40°C to +25°C IP = 0A, TJ = 25°C to 125°C VOE IP = 0A, TJ = -40°C to +25°C ETOT IP = 5A, TJ = 25°C to 125°C Min -5 Typ (5) Max +5 264 -2 +2 ±1.5 -15 +15 ±5 -2.5 IP = 5A, TJ = -40°C to +25°C +2.5 Units A mV/A % % mV mV % ±1.5 % Sensitivity error lifetime drift ESENS(D) ±1 % Total output error lifetime drift ETOT(D) ±1 % MCS1806-3-10 PERFORMANCE CHARACTERISTICS VCC = 3.3V, TJ = -40°C to +125°C, unless otherwise noted. Parameters Optimized accuracy range (7) Sensitivity Sensitivity error Offset voltage (8) Total output error Symbol Condition IP SENS -10A ≤ IP ≤ +10A, TJ = 25°C IP = 10A, TJ = 25°C to 125°C ESENS IP = 10A, TJ = -40°C to +25°C IP = 0A, TJ = 25°C to 125°C VOE IP = 0A, TJ = -40°C to +25°C ETOT IP = 10A, TJ = 25°C to 125°C Min -10 Typ (5) Max +10 132 -2 +2 ±1.5 -10 +10 ±5 -2.5 IP = 10A, TJ = -40°C to +25°C +2.5 Units A mV/A % % mV mV % ±1.5 % Sensitivity error lifetime drift ESENS(D) ±1 % Total output error lifetime drift ETOT(D) ±1 % MCS1806-3-20 PERFORMANCE CHARACTERISTICS VCC = 3.3V, TJ = -40°C to +125°C, unless otherwise noted. Parameters Optimized accuracy range (7) Sensitivity Sensitivity error Offset voltage (8) Total output error Symbol Condition IP SENS -20A ≤ IP ≤ +20A, TJ = 25°C IP = 20A, TJ = 25°C to 125°C ESENS IP = 20A, TJ = -40°C to +25°C IP = 0A, TJ = 25°C to 125°C VOE IP = 0A, TJ = -40°C to +25°C ETOT IP = 20A, TJ = 25°C to 125°C IP = 20A, TJ = -40°C to +25°C Min -20 Typ (5) Max +20 66 -2 +2 ±1.5 -10 +10 ±5 -2.5 +2.5 Units A mV/A % % mV mV % ±1.5 % Sensitivity error lifetime drift ESENS(D) ±1 % Total output error lifetime drift ETOT(D) ±1 % MCS1806 Rev. 1.1 MonolithicPower.com 9/8/2022 MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2022 MPS. All Rights Reserved. 6 MCS1806 – LINEAR HALL-EFFECT CURRENT SENSOR WITH ±2.5% ACCURACY MCS1806-3-30 PERFORMANCE CHARACTERISTICS VCC = 3.3V, TJ = -40°C to +125°C, unless otherwise noted. Parameters Optimized accuracy range (7) Sensitivity Sensitivity error Offset voltage (8) Total output error Symbol Condition IP SENS -30A ≤ IP ≤ +30A, TJ = 25°C IP = 30A, TJ = 25°C to 125°C ESENS IP = 30A, TJ = -40°C to +25°C IP = 0A, TJ = 25°C to 125°C VOE IP = 0A, TJ = -40°C to +25°C ETOT IP = 30A, TJ = 25°C to 125°C Min -30 Typ (5) Max +30 44 -2 +2 ±1.5 -10 +10 ±5 -2.5 IP = 30A, TJ = -40°C to +25°C +2.5 Units A mV/A % % mV mV % ±1.5 % Sensitivity error lifetime drift ESENS(D) ±1 % Total output error lifetime drift ETOT(D) ±1 % MCS1806-3-40 PERFORMANCE CHARACTERISTICS VCC = 3.3V, TJ = -40°C to +125°C, unless otherwise noted. Parameters Optimized accuracy range (7) Sensitivity Sensitivity error Offset voltage (8) Total output error Symbol Condition IP SENS -40A ≤ IP ≤ +40A, TJ = 25°C IP = 40A, TJ = 25°C to 125°C ESENS IP = 40A, TJ = -40°C to +25°C IP = 0A, TJ = 25°C to 125°C VOE IP = 0A, TJ = -40°C to +25°C ETOT IP = 40A, TJ = 25°C to 125°C Min -40 Typ (5) Max +40 33 -2 +2 ±1.5 -10 +10 ±5 -2.5 IP = 40A, TJ = -40°C to +25°C +2.5 Units A mV/A % % mV mV % ±1.5 % Sensitivity error lifetime drift ESENS(D) ±1 % Total output error lifetime drift ETOT(D) ±1 % MCS1806-3-50 PERFORMANCE CHARACTERISTICS VCC = 3.3V, TJ = -40°C to +125°C, unless otherwise noted. Parameters Optimized accuracy range (7) Sensitivity Sensitivity error Offset voltage (8) Total output error Symbol Condition IP SENS -50A ≤ IP ≤ +50A, TJ = 25°C IP = 50A, TJ = 25°C to 125°C ESENS IP = 50A, TJ = -40°C to +25°C IP = 0A, TJ = 25°C to 125°C VOE IP = 0A, TJ = -40°C to +25°C ETOT IP = 50A, TJ = 25°C to 125°C IP = 50A, TJ = -40°C to +25°C Min -50 Typ (5) Max +50 26.4 -2 +2 ±1.5 -10 +10 ±5 -2.5 +2.5 Units A mV/A % % mV mV % ±1.5 % Sensitivity error lifetime drift ESENS(D) ±1 % Total output error lifetime drift ETOT(D) ±1 % MCS1806 Rev. 1.1 MonolithicPower.com 9/8/2022 MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2022 MPS. All Rights Reserved. 7 MCS1806 – LINEAR HALL-EFFECT CURRENT SENSOR WITH ±2.5% ACCURACY MCS1806-5-05 PERFORMANCE CHARACTERISTICS VCC = 5V, TJ = -40°C to +125°C, unless otherwise noted. Parameters Optimized accuracy range (7) Sensitivity Sensitivity error Offset voltage (8) Total output error Symbol Condition IP SENS -5A ≤ IP ≤ +5A, TJ = 25°C IP = 5A, TJ = 25°C to 125°C ESENS IP = 5A, TJ = -40°C to +25°C IP = 0A, TJ = 25°C to 125°C VOE IP = 0A, TJ = -40°C to +25°C ETOT IP = 5A, TJ = 25°C to 125°C Min -5 Typ (5) Max +5 400 -2 +2 ±1.5 -15 +15 ±5 -2.5 IP = 5A, TJ = -40°C to +25°C +2.5 Units A mV/A % % mV mV % ±1.5 % Sensitivity error lifetime drift ESENS(D) ±1 % Total output error lifetime drift ETOT(D) ±1 % MCS1806-5-10 PERFORMANCE CHARACTERISTICS VCC = 5V, TJ = -40°C to +125°C, unless otherwise noted. Parameters Optimized accuracy range (7) Sensitivity Sensitivity error Symbol IP SENS ESENS Offset voltage (8) VOE Total output error ETOT Condition -10A ≤ IP ≤ +10A, TJ = 25°C IP = 10A, TJ = 25°C to 125°C IP = 10A, TJ = -40°C to +25°C IP = 0A, TJ = 25°C to 125°C IP = 0A, TJ = -40°C to +25°C IP = 10A, TJ = 25°C to 125°C Min -10 Typ (5) Max +10 200 -2 +2 ±1.5 -15 +15 ±5 -2.5 IP = 10A, TJ = -40°C to +25°C +2.5 Units A mV/A % % mV mV % ±1.5 % Sensitivity error lifetime drift ESENS(D) ±1 % Total output error lifetime drift ETOT(D) ±1 % MCS1806-5-20 PERFORMANCE CHARACTERISTICS VCC = 5V, TJ = -40°C to +125°C, unless otherwise noted. Parameters Optimized accuracy range (7) Sensitivity Sensitivity error Offset voltage (8) Total output error Symbol Condition IP SENS -20A ≤ IP ≤ +20A, TJ = 25°C IP = 20A, TJ = 25°C to 125°C ESENS IP = 20A, TJ = -40°C to +25°C IP = 0A, TJ = 25°C to 125°C VOE IP = 0A, TJ = -40°C to +25°C ETOT IP = 20A, TJ = 25°C to 125°C IP = 20A, TJ = -40°C to +25°C Min -20 Typ (5) Max +20 100 -2 2 ±1.5 -10 10 ±5 -2.5 2.5 Units A mV/A % % mV mV % ±1.5 % Sensitivity error lifetime drift ESENS(D) ±1 % Total output error lifetime drift ETOT(D) ±1 % MCS1806 Rev. 1.1 MonolithicPower.com 9/8/2022 MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2022 MPS. All Rights Reserved. 8 MCS1806 – LINEAR HALL-EFFECT CURRENT SENSOR WITH ±2.5% ACCURACY MCS1806-5-30 PERFORMANCE CHARACTERISTICS VCC = 5V, TJ = -40°C to +125°C, unless otherwise noted. Parameters Optimized accuracy range (7) Sensitivity Sensitivity error Offset voltage (8) Total output error Symbol Condition IP SENS -30A ≤ IP ≤ +30A, TJ = 25°C IP = 30A, TJ = 25°C to 125°C ESENS IP = 30A, TJ = -40°C to +25°C IP = 0A, TJ = 25°C to 125°C VOE IP = 0A, TJ = -40°C to +25°C ETOT IP = 30A, TJ = 25°C to 125°C Min -30 Typ (5) Max +30 66 -2 +2 ±1.5 -10 +10 ±5 -2.5 IP = 30A, TJ = -40°C to +25°C +2.5 Units A mV/A % % mV mV % ±1.5 % Sensitivity error lifetime drift ESENS(D) ±1 % Total output error lifetime drift ETOT(D) ±1 % MCS1806-5-40 PERFORMANCE CHARACTERISTICS VCC = 5V, TJ = -40°C to +125°C, unless otherwise noted. Parameters Optimized accuracy range (7) Sensitivity Sensitivity error Offset voltage (8) Total output error Symbol Condition IP SENS -40A ≤ IP ≤ +40A, TJ = 25°C IP = 40A, TJ = 25°C to 125°C ESENS IP = 40A, TJ = -40°C to +25°C IP = 0A, TJ = 25°C to 125°C VOE IP = 0A, TJ = -40°C to +25°C ETOT IP = 40A, TJ = 25°C to 125°C IP = 40A, TJ = -40°C to +25°C Min -40 Typ (5) Max +40 50 -2 +2 ±1.5 -10 +10 ±5 -2.5 +2.5 Units A mV/A % % mV mV % ±1.5 % Sensitivity error lifetime drift ESENS(D) ±1 % Total output error lifetime drift ETOT(D) ±1 % MCS1806 Rev. 1.1 MonolithicPower.com 9/8/2022 MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2022 MPS. All Rights Reserved. 9 MCS1806 – LINEAR HALL-EFFECT CURRENT SENSOR WITH ±2.5% ACCURACY MCS1806-5-50 PERFORMANCE CHARACTERISTICS VCC = 5V, TJ = -40°C to +125°C, unless otherwise noted. Parameters Optimized accuracy range (7) Sensitivity Sensitivity error Offset voltage (8) Total output error Symbol Condition IP SENS -50A ≤ IP ≤ +50A, TJ = 25°C IP = 50A, TJ = 25°C to 125°C ESENS IP = 50A, TJ = -40°C to +25°C IP = 0A, TJ = 25°C to 125°C VOE IP = 0A, TJ = -40°C to +25°C IP = 50A, TJ = 25°C to 125°C ETOT IP = 50A, TJ = -40°C to +25°C Min -50 Typ (5) Max +50 40 -2 +2 ±1.5 10 10 ±5 -2.5 +2.5 Units A mV/A % % mV mV % ±1.5 % Sensitivity error lifetime drift ESENS(D) ±1 % Total output error lifetime drift ETOT(D) ±1 % Notes: 5) 6) 7) 8) 9) 10) Typical values denoted with the “±” sign signify ±3 sigma values.. Beyond the maximum specified current range (IP), the current sensor continues to provide an analog output voltage proportional to the primary current until the device reaches the high or low saturation voltage. However, the nonlinearity increases beyond the specified range (IP). The device can operate at higher primary current levels (IP) and ambient temperatures (TA), as long as the maximum junction temperature (TJ (MAX)) is not exceeded. The offset voltage does not incorporate any error due to the external magnetic fields. Guaranteed by design and characterization. The resistance is defined as the total resistance measured from a point of the lead next to the solder joint, assuming that the two IP+ pins (and IP- pins) have the same potential (see Figure 1). This definition corresponds to the effective resistance used to estimate the Joule heating, calculated with R x IP2. Figure 1: Total Resistance MCS1806 Rev. 1.1 MonolithicPower.com 9/8/2022 MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2022 MPS. All Rights Reserved. 10 MCS1806 – LINEAR HALL-EFFECT CURRENT SENSOR WITH ±2.5% ACCURACY FUNCTIONAL BLOCK DIAGRAM VCC VCC Regulator Power Supply Pre-Setting POR Hall Driver Temperature Sensor Control Logic IP+ Hall Dynamic Offset Cancellation Offset Control VOUT EA + Hall IP Sensitivity Control - MCS1806 IP+ VOUT RFi CFi IP- GND IPFILT CF Figure 2: Functional Block Diagram MCS1806 Rev. 1.1 MonolithicPower.com 9/8/2022 MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2022 MPS. All Rights Reserved. 11 MCS1806 – LINEAR HALL-EFFECT CURRENT SENSOR WITH ±2.5% ACCURACY OPERATION Current Rating IPMAX is the rated current. The sensor output is linear, and is a function of the primary current (IP). IP follows the specified performances when IP is between -IPMAX and + IPMAX (see Figure 3). Beyond the rated current (IPMAX), the current sensor continues to provide an analog output voltage (VOUT) proportional to the primary current until the device reaches the high or low saturation voltage. However, the nonlinearity increases beyond the specified range (IPMAX). VOUT VCC / 2 0 IP 0 IPMAX Figure 3: Sensor Output Function Sensitivity (SENS) The sensitivity (SENS, in mV/A) indicates how the output changes when the primary current changes. SENS is the product of the average between the two coupling constants (PMCF1 and PMCF2, in mT/A) and the transducer gain (in mV/mT). The gain is factory-trimmed to the sensor’s target sensitivity. Coupling Constants (PMCF1 and PMCF2) Figure 4 shows a cross-section of the sensor. The first and second Hall magnetic coupling factors are defined as the amount of the vertical magnetic field produced at the sensing points 1 and 2 (B1 and B2, respectively), per unit of current injected into the primary conductor. Due to the asymmetrical shape of the primary conductor, the magnetic field generated in the two sensing points is different. B1 Sensing Point 1 Primary Conductor Zero-Current Output Voltage (VOUT(Q)) VOUT(Q) is the output voltage when the primary current is 0A. The nominal value is VCC / 2. Offset Voltage (VOE) The offset voltage (VOE) is the difference between VCC / 2 and VOUT(Q). The variation is due to thermal drift, as well as the factory’s resolution limits related to voltage offset trimming. To convert this voltage into amperes, divide VOE by the sensitivity. VCC -IPMAX Noise (IN) The noise (IN) is a random deviation that cannot be removed by calibrating the device. The input’s referred noise is the root mean square (RMS) of the sensor’s output noise (in mV), divided by the sensitivity (SENS, in mV/A). IN represents the smallest current that the device is able to resolve without any external signal treatment. Nonlinearity (ELIN) The primary current and sensor output should have a linear relationship, indicated by a straight line. A line that is not straight indicates nonlinearity, which is a deviation. Nonlinearity (in %) can be calculated with Equation (1): ELIN = Max(VOUT (IP ) − VLIN (IP ))  100 VOUT (IPMAX ) − VOUT ( −IPMAX ) Where VLIN(IP) is the approximate straight line calculated by the least square method. Note that depending on the curvature of VOUT(IP), ELIN can be positive or negative. Total Output Error (ETOT) The total output error (ETOT, in %) is the relative difference between the sensor output and the ideal output at a given primary current. ETOT can be estimated with Equation (2): ETOT (IP ) = Sensing Point 2 B2 (1) VOUT (IP ) − VOUT_IDEAL (IP ) Where VOUT_IDEAL Equation (3): SENS  IP can VOUT_IDEAL (IP ) = be VCC 2  100 calculated + SENS  IP (2) with (3) Figure 4: Cross-Section of the Sensor MCS1806 Rev. 1.1 MonolithicPower.com 9/8/2022 MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2022 MPS. All Rights Reserved. 12 MCS1806 – LINEAR HALL-EFFECT CURRENT SENSOR WITH ±2.5% ACCURACY ETOT incorporates all error sources, and is a function of IP. At currents close to IPMAX, ETOT is affected mainly by the sensitivity error. At currents close to 0A, ETOT is mostly caused by the offset voltage (VOE). Note that when IP = 0A, ETOT diverges to infinity due to the constant offset. Propagation Delay (tPD) The propagation delay (tPD) represents the internal latency between an event that has been measured and the sensor’s response. tPD is defined as the time between the following moments: Ratiometry Coefficients Ideally, the sensor output is ratiometric. This means that the sensitivity and the zero-current output scale with VCC. The ratiometry coefficients (KSENS and KVO) measure whether the sensitivity and zero-current output are proportional. 2. t2: VOUT reaches 20% of its final value, as it corresponds to the applied primary current (see Figure 6). K SENS = VCC / VCC_ TYP IP IP_FINAL KSENS can be estimated with Equation (4): SENS(VCC ) / SENS(VCC _ TYP ) 1. t1: The primary current signal reaches 20% of its final value. VOUT_FINAL VOUT (4) KVO can be calculated with Equation (5): K VO = VOUT (IP = 0, VCC ) / VOUT (IP = 0, VCC_ TYP ) VCC / VCC _TYP 20% of IP_FINAL (5) Where VCC_TYP = 3.3V for the 3.3V option, and VCC_TYP = 5V for the 5V option. Ideally both KSENS and KVO are 1. Power-On Time (tPO) The power-on time (tPO) is the time interval from when power is first applied to the device until the output can correctly indicate the applied primary current. tPO is defined as the time between the following moments: tPD 20% of VOUT_FINAL 0 t1 t2 t Figure 6: Propagation Delay (tPD) Rising Time (tR) The rising time (tR) is defined as the time between the following moments: 1. t1: The sensor’s VOUT reaches 10% of its fullscale value. 2. t2: The sensor’s VOUT reaches 90% of its fullscale value (see Figure 7). 1. t1: The supply reaches the minimum operating voltage (VCC_UVLO). 2. t2: VOUT settles to 90% of its final value under an applied primary current (see Figure 5). IP IPMAX 90% of VOUTMAX VOUT VCC VCC_TYP 90% of VOUT_FINAL VCC_UVLO VOUT tr 10% of VOUTMAX tPO 0 t1 t2 t Figure 7: Rising Time (tR) 0 t1 t2 t Figure 5: Power-On Time (tPO) MCS1806 Rev. 1.1 MonolithicPower.com 9/8/2022 MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2022 MPS. All Rights Reserved. 13 MCS1806 – LINEAR HALL-EFFECT CURRENT SENSOR WITH ±2.5% ACCURACY The sensor bandwidth (fBW) is defined as the 3dB cutoff frequency. Using the rising time, fBW can be estimated with Equation (6): fBW = 0.35 / tR (6) Response Time (tRESPONSE) The response time (tRESPONSE) is defined as the time between the following moments: Adjustable Bandwidth The sensor dynamic can be adjusted with an external capacitor (CF). In this scenario, the bandwidth (fBW) can be calculated with Equation (7): fBW = 1 1  2 RFI  (CFI + CF ) (7) 1. t1: The primary current signal reaches 90% of its final value. Where RFI is the internal filter resistance, and CFI is the internal filter capacitance. 2. t2: VOUT reaches 90% of its final value, as it corresponds to the applied primary current (see Figure 8). Figure 9 shows the typical bandwidth curve. 90% of IP_FINAL IP 90% of VOUT_FINAL VOUT tRESPONSE Figure 9: Bandwidth vs. CF 0 t1 t2 t Figure 8: Response Time (tRESPONSE) MCS1806 Rev. 1.1 MonolithicPower.com 9/8/2022 MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2022 MPS. All Rights Reserved. 14 MCS1806 – LINEAR HALL-EFFECT CURRENT SENSOR WITH ±2.5% ACCURACY APPLICATION INFORMATION Self-Heating Performance The conductor and MCS1806 temperatures can rise when current flows through the primary conductor. This means that self-heating should be carefully verified to ensure that the IC junction temperature (TJ) does not exceed its maximum threshold (165°C). The thermal behavior strongly depends on the IC’s thermal environment and cooling capacity. In particular, thermal behavior depends on the PCB copper area and thickness. The thermal response is also related to the current. (e.g. the amplitude and frequency of an AC current, or the peaks and duty cycle of a pulsed DC current). Recommended PCB Layout Efficient PCB layout is critical for proper operation. For the best results, refer to Figure 11 and follow the guidelines below: 1. The board should includes a total of 2200mm2, 4oz (139µm) copper connected to the primary conductor via the IP+ and IPpins. 2. Ensure that the copper covers both the top and bottom sides, 3. Use thermal vias to connect the two layers. Figure 10 shows the self-heating performance of the MCS1806 with a DC current input. This data was collected with the part mounted on the MCS1806 evaluation board (see Figure 11) when TA = 25°C. Values were taken after 10 minutes of continuous current. DIE TEMPERATURE CHANGE (℃) 120 100 80 Top Layer 60 40 20 0 0 10 20 30 40 50 PRIMARY DC CURRENT (A) Figure 10: Self-Heating Performance with DC Current Input Bottom Layer Figure 11: Recommended PCB Layout MCS1806 Rev. 1.1 MonolithicPower.com 9/8/2022 MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2022 MPS. All Rights Reserved. 15 MCS1806 – LINEAR HALL-EFFECT CURRENT SENSOR WITH ±2.5% ACCURACY TYPICAL APPLICATION CIRCUIT VCC IP+ 1 2 IP+ IP+ VCC VOUT 8 C1 1μF 7 VOUT MCS1806 3 IP- 4 IP- FILT IP- GND 6 5 C2 (Optional, float if not used) GND Figure 12: Typical Application Circuit MCS1806 Rev. 1.1 MonolithicPower.com 9/8/2022 MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2022 MPS. All Rights Reserved. 16 MCS1806 – LINEAR HALL-EFFECT CURRENT SENSOR WITH ±2.5% ACCURACY PACKAGE INFORMATION SOIC-8 0.189(4.80) 0.197(5.00) 0.050(1.27) 0.024(0.61) 8 5 0.063(1.60) 0.150(3.80) 0.157(4.00) PIN 1 ID 1 0.228(5.80) 0.244(6.20) 0.213(5.40) 4 TOP VIEW RECOMMENDED LAND PATTERN 0.053(1.35) 0.069(1.75) SEATING PLANE 0.004(0.10) 0.010(0.25) 0.013(0.33) 0.020(0.51) SEE DETAIL "A" 0.050(1.27) BSC SIDE VIEW FRONT VIEW 0.010(0.25) x 45o 0.020(0.50) GAUGE PLANE 0.010(0.25) BSC 0o-8o DETAIL "A" NOTE: 1) CONTROL DIMENSION IS IN INCHES. DIMENSION IN BRACKET IS IN MILLIMETERS. 2) PACKAGE LENGTH DOES NOT INCLUDE MOLD FLASH, PROTRUSION, OR GATE BURRS. 3) PACKAGE WIDTH DOES NOT INCLUDE INTERLEAD FLASH OR PROTRUSIONS. 4) LEAD COPLANARITY (BOTTOM OF LEADS AFTER FORMING) SHALL BE 0.004" INCHES MAX. 5) DRAWING CONFORMS TO JEDEC MS-012, VARIATION AA. 6) DRAWING IS NOT TO SCALE. MCS1806 Rev. 1.1 MonolithicPower.com 9/8/2022 MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2022 MPS. All Rights Reserved. 17 MCS1806 – LINEAR HALL-EFFECT CURRENT SENSOR WITH ±2.5% ACCURACY CARRIER INFORMATION 1 Pin1 1 1 1 ABCD ABCD ABCD ABCD Feed Direction Part Number Package Description Quantity/ Reel Quantity/ Tube Quantity /Tray Reel Diameter MCS1806GS-3-05-Z MCS1806GS-3-10-Z MCS1806GS-3-20-Z MCS1806GS-3-30-Z MCS1806GS-3-40-Z MCS1806GS-3-50-Z MCS1806GS-5-05-Z MCS1806GS-5-10-Z MCS1806GS-5-20-Z MCS1806GS-5-30-Z MCS1806GS-5-40-Z MCS1806GS-5-50-Z SOIC-8 SOIC-8 SOIC-8 SOIC-8 SOIC-8 SOIC-8 SOIC-8 SOIC-8 SOIC-8 SOIC-8 SOIC-8 SOIC-8 2500 2500 2500 2500 2500 2500 2500 2500 2500 2500 2500 2500 N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A 13in 13in 13in 13in 13in 13in 13in 13in 13in 13in 13in 13in Carrier Tape Width 12mm 12mm 12mm 12mm 12mm 12mm 12mm 12mm 12mm 12mm 12mm 12mm MCS1806 Rev. 1.1 MonolithicPower.com 9/8/2022 MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2022 MPS. All Rights Reserved. Carrier Tape Pitch 8mm 8mm 8mm 8mm 8mm 8mm 8mm 8mm 8mm 8mm 8mm 8mm 18 MCS1806 – LINEAR HALL-EFFECT CURRENT SENSOR WITH ±2.5% ACCURACY REVISION HISTORY Revision # 1.0 Revision Date 7/7/2022 1.1 9/8/2022 Description Initial Release Increased the minimum isolation voltage from 2.6kVRMS to 3kVRMS Pages Updated 1, 5 Notice: The information in this document is subject to change without notice. Please contact MPS for current specifications. Users should warrant and guarantee that third-party Intellectual Property rights are not infringed upon when integrating MPS products into any application. MPS will not assume any legal responsibility for any said applications. MCS1806 Rev. 1.1 MonolithicPower.com 9/8/2022 MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2022 MPS. All Rights Reserved. 19