MGJ3T05150505MC-R13

MGJ3 Series www.murata.com 5.2kVDC Isolated 3W Gate Drive SM DC-DC Converters SELECTION GUIDE Input Voltage Range Rated Output Current Output Power Rated Output Voltage Rated Output Current Output Power Typical Application V See page 7 V mA W V mA W Order Code1 FEATURES Output 2 Rated Output Voltage Output 1 „ No opto feedback MGJ3T05150505MC 4.5 - 9 IGBT +15 120 1.8 -10 120 1.2 „ Patents protected MGJ3T12150505MC 9 - 18 IGBT +15 120 1.8 -10 120 1.2 „ Optimised bipolar output voltages for IGBT/ SiC & Mosfet gate drives MGJ3T24150505MC 18 - 36 IGBT +15 120 1.8 -10 120 1.2 MGJ3T05150505MC 4.5 - 9 SiC +20 120 2.4 -5 120 0.6 „  Configurable dual outputs for all gate drive applications: +15V/-5V, +15V/-10V & +20V/5V outputs MGJ3T12150505MC 9 - 18 SiC +20 120 2.4 -5 120 0.6 MGJ3T24150505MC 18 - 36 SiC +20 120 2.4 -5 120 0.6 MGJ3T05150505MC 4.5 - 9 MOSFET +15 150 2.25 -5 150 0.75 „ Reinforced insulation to UL60950 „ recognised MGJ3T12150505MC 9 - 18 MOSFET +15 150 2.25 -5 150 0.75 MGJ3T24150505MC 18 - 36 MOSFET +15 150 2.25 -5 150 0.75 SELECTION GUIDE (Continued) V See page 7 MGJ3T05150505MC 4.5 - 9 IGBT 3 10 69 200 3 10 98 150 MGJ3T12150505MC 9 - 18 IGBT 3 10 85 200 3 10 108 150 MGJ3T24150505MC 18 - 36 IGBT 3 10 83 200 3 10 104 150 MGJ3T05150505MC 4.5 - 9 SiC 3 10 118 275 3 10 49 75 MGJ3T12150505MC 9 - 18 SiC 3 10 139 275 3 10 54 75 MGJ3T24150505MC 18 - 36 SiC 3 10 135 275 3 10 52 75 MGJ3T05150505MC 4.5 - 9 MOSFET 3 10 69 200 3 10 49 75 MGJ3T12150505MC 9 - 18 MOSFET 3 10 85 200 3 10 54 75 MGJ3T24150505MC 18 - 36 MOSFET 3 10 83 200 3 10 52 75 „ 105°C operating temperature For full details go to https://www.murata.com/englobal/products/power/rohs Ripple & Noise (Max)2 Typical Application „ 5V, 12V & 24V input voltages Offering configurable dual output voltages of +15V/10V, +20V/-5V and +15V/-5V, the MGJ3 series of DC-DC converters is ideal for powering ‘high side’ and ‘low side’ gate drive circuits for IGBTs, Silicon and Silicon Carbide Mosfets in bridge circuits. A choice of asymmetric output voltages allows optimum drive levels for best system efficiency and EMI. The MGJ3 series is characterised for high isolation and dv/dt requirements commonly seen in bridge circuits used in motor drives and inverters. A disable/frequency synchronisation pin simplifies EMC filter design. The MGJ3 protection features include short circuit protection and overload protection. Ripple & Noise (Typ)2 Input Voltage Range „ Continuous barrier withstand voltage 3kVDC PRODUCT OVERVIEW Load Regulation (Max)3 Order Code1 Load Regulation (Typ)3 „ Ultra low isolation capacitance 15pF Load Regulation (Max)3 „ 5.2kVDC isolation test voltage ‘Hi Pot Test’ Load Regulation (Typ)3 „ Characterised partial discharge performance Output 2 Ripple & Noise (Max)2 Output 1 „ Characterised CMTI >100kV/μS Ripple & Noise (Typ)2 „ ANSI/AAMI ES60601-1 1MOPP/2MOOPs recognised % mVp-p % mVp-p 1. Components are supplied in tape and reel packaging, please refer to package specification section. Orderable part numbers are MGJ3TXX150505MC-R7 (23 pieces per reel), or MGJ3TXX150505MC-R13 (92 pieces per reel). 2. See ripple & noise test method. 3. Between 50% and 100% rated output current. All specifications typical at TA=25°C, nominal input voltage and rated output current unless otherwise specified. www.murata.com KDC_MGJ3C.G01 Page 1 of 14 MGJ3 Series 5.2kVDC Isolated 3W Gate Drive SM DC-DC Converters Isolation Capacitance MIL 217 V 5 mA 760 75 78.5 pF 15 889 6662 MGJ3T12150505MC 12 310 78 82 15 939 6596 MGJ3T24150505MC 24 155 77 81 15 915 6596 % MTTF1 Telecordia Efficiency (Typ) Input Current at Rated Load MGJ3T05150505MC Order Code Efficiency (Min) Nominal Input Voltage SELECTION GUIDE (Continued) kHrs INPUT CHARACTERISTICS Parameter Conditions Min. Typ. Max. Units 5V input types 12V input types 24V input types Turn on threshold MGJ3T05 Turn off threshold MGJ3T05 Turn on threshold MGJ3T12 Turn off threshold MGJ3T12 Turn on threshold MGJ3T24 Turn off threshold MGJ3T24 5V input types 12V input types 24V input types 4.5 9 18 5 12 24 4.1 3.0 8.1 7.5 16.7 16.1 18 12 9 9 18 36 V Parameter Conditions Min. Typ. Max. Units Minimum load Voltage set point accuracy Line regulation Below 10% load, 5V and 15V outputs are clamped to 6V and 16V respectively Nominal output voltages are at 75% loading Low line to high line Peak deviation (50-100% & 100-50% load swing) Settling time 2 % % % %Vout ms Max. Units Voltage range Under voltage lock out Input ripple current V mA p-p OUTPUT CHARACTERISTICS Transient response 10 ±4 1.2 0.25 ISOLATION CHARACTERISTICS Parameter Isolation test voltage Resistance Continuous barrier withstand voltage UL60950-1 Safety standard ANSI/AAMI ES60601-1 Conditions Min. Flash tested for 1 second Qualification tested for 1 minute Viso = 1kVDC Non-safety barrier application Reinforced 1 MOPP/2 MOOP 5200 5200 100 Typ. VDC 3000 250 250 Creepage and clearance 7mm GΩ V Vrms GENERAL CHARACTERISTICS Parameter Conditions Min. Typ. Switching frequency Max. 100 Units kHz TEMPERATURE CHARACTERISTICS Parameter Conditions Min. Operation Storage Product temperature rise above ambient See derating graphs -40 -50 100% Load, Nom VIN, Still Air Typ. Max. Units 105 125 °C 18 ABSOLUTE MAXIMUM RATINGS Short-circuit protection Input voltage, MGJ3 5V input types Input voltage, MGJ3 12V input types Input voltage, MGJ3 24V input types Continuous 12V 20V 40V 1. Calculated using MIL-HDBK-217 FN2 and Telecordia SR-332 calculation model with nominal input voltage at full load. www.murata.com KDC_MGJ3C.G01 Page 2 of 14 MGJ3 Series 5.2kVDC Isolated 3W Gate Drive SM DC-DC Converters TECHNICAL NOTES ISOLATION VOLTAGE ‘Hi Pot Test’, ‘Flash Tested’, ‘Withstand Voltage’, ‘Proof Voltage’, ‘Dielectric Withstand Voltage’ & ‘Isolation Test Voltage’ are all terms that relate to the same thing, a test voltage, applied for a specified time, across a component designed to provide electrical isolation, to verify the integrity of that isolation. Murata Power Solutions MGJ3 series of DC-DC converters are all 100% production tested at 5.2kVDC for 1 second and qualification tested at 5.2kVDC for 1 minute. The MGJ3 series is recognised by Underwriters Laboratory, please see safety approval section for more information. When the insulation in the MGJ3 series is not used as a safety barrier, i.e. provides functional isolation only, continuous or switched voltages across the barrier up to 3kV are sustainable. This is established by measuring the partial discharge Inception voltage in accordance with IEC 60270. Please contact Murata for further information. REPEATED HIGH-VOLTAGE ISOLATION TESTING It is well known that repeated high-voltage isolation testing of a barrier component can actually degrade isolation capability, to a lesser or greater degree depending on materials, construction and environment. We therefore strongly advise against repeated high voltage isolation testing, but if it is absolutely required, that the voltage be reduced by 20% from specified test voltage. SAFETY APPROVAL ANSI/AAMI ES60601-1 The MGJ3 series is recognised to ANSI/AAMI ES60601-1 and provides 1 MOPP (Means Of Patient Protection) and 2 MOOP (Means Of Operator Protection) based upon a working voltage of 250 Vrms max, between Primary and Secondary. UL 60950 The MGJ3 series has been recognised by Underwriters Laboratory (UL) to UL 60950 for reinforced insulation to a working voltage of 250Vrms with a maximum measured product operating temperature of 105°C. Creepage and clearance 7mm. FUSING The MGJ3 Series of converters are not internally fused so to meet the requirements of UL an anti-surge input line fuse should always be used with ratings as defined below. Input Voltage, 5V 2A Input Voltage, 12V 1A Input Voltage, 24V 0.5A All fuses should be UL recognised, 125V rated. RoHS COMPLIANCE, MSL, PSL AND REFLOW SOLDERING INFORMATION This series is compatible with RoHS soldering systems with a peak reflow solder temperature of 245ºC and Time Above Liquidus for 90 seconds, as per J-STD-020. Please refer to application notes for further information. The pin termination finish on this product series is Gold with Nickel Pre-plate. The series is backward compatible with Sn/Pb soldering systems. The series has a Moisture Sensitivity Level (MSL) 2. Samples of the product series were tested in accordance with the conditioning described for MSL level 2 in IPC/J-STD-020. The product series passed electrical tests, co-planarity and visual inspection criteria. www.murata.com KDC_MGJ3C.G01 Page 3 of 14 MGJ3 Series 5.2kVDC Isolated 3W Gate Drive SM DC-DC Converters ENVIRONMENTAL VALIDATION TESTING The following tests have been conducted on this product series, please contact Murata if further information about the tests is required. Test Standard Condition Temperature cycling MIL-STD-883 Method 1010, Condition B 10 cycles between two chambers set to achieve -55°C and +125°C.The dwell time shall not be less than 10min and the load shall reach the specified temperature in 15min. HAST (Unbiased) High Temperature Storage life JEDEC JESD22-A118 JEDEC JESD22-A103 Condition A 96Hrs +2/-0Hrs at 130°C ± 2°C, 85% ± 5% R.H. Vibration BS EN 61373 with respect to BS EN60068-2-64, Test Fh Category 1 Class B 5 – 150Hz. Level at each axis – Vertical, Traverse and Longitudinal: 5.72m/s2 rms. 5 hours in each axis. Crest factor: 3 Sigma. Device is secured via surface mount pins. Shock BS EN 61373, Category 1 class B Test is 30ms duration, 3 shocks in each sense of 3 mutually perpendicular axis (18 shocks total). Level at each axis: Vertical, Traverse and Longitudinal: 50m/s2. Device is secured via surface mount pins. Solderability EIA/IPC/JEDEC J-STD-002, Test S and S1 The parts are conditioned in a steam ager for 8 hours ±15 min. at a temperature of 93±3°C. SnPb (Test S): The parts are placed onto a stencil with Sn60Pb40 solder paste on and then placed into the reflow oven at 215 ±5°C for 50–70 seconds. Pb-free (Test S1): The parts are placed onto a stencil with Sn96.5Ag3.0Cu0.5 solder paste on and then placed into the reflow oven at 245±5°C for 30–60 seconds. Solvent cleaning Resistance to cleaning agents Solvent – Novec 71IPA & Topklean EL-20A. Pulsed ultrasonic immersion 45°C - 65°C. Solvent Resistance MIL-STD-883 Method 2015 The parts and the bristle portion of the brush are immersed in Isopropanol for a minimum of 1 minute. The parts are brushed 3 times, after the third time the parts are blown dry and inspected. Moisture sensitivity level (MSL 2) Based on IPC/JEDEC J-STD-020 Bake samples at 125 +5/-0°C for 24hours minimum before conditioning in the temperature/humidity chamber for 168 hours at 85°C/60%RH and Pb Free JEDEC Max profile conditioning with electrical testing, co-planarity inspection before and after. 125°C +10/-0°C for ≥1000 hours. PART NUMBER STRUCTURE MGJ 3 T XX XXXXXX M C -RXX Series name Packaging code Power rating R7 - 7 inch reel R13 - 13 inch reel Output type RoHS compliant S - Single D - Dual T - Triple Q - Quad Input voltage Package type S - SIP D - DIP M - Surface mount Z - ZIP Output voltage www.murata.com KDC_MGJ3C.G01 Page 4 of 14 MGJ3 Series 5.2kVDC Isolated 3W Gate Drive SM DC-DC Converters CHARACTERISATION TEST METHODS Ripple & Noise Characterisation Method Ripple and noise measurements are performed with the following test configuration. C1 1μF X7R multilayer ceramic capacitor, voltage rating to be a minimum of 3 times the output voltage of the DC-DC converter 10μF tantalum capacitor, voltage rating to be a minimum of 1.5 times the output voltage of the DC-DC converter with an ESR of less C2 than 100mΩ at 100 kHz C3 100nF multilayer ceramic capacitor, general purpose R1 450Ω resistor, carbon film, ±1% tolerance R2 50Ω BNC termination T1 3T of the coax cable through a ferrite toroid RLOAD Resistive load to the maximum power rating of the DC-DC converter. Connections should be made via twisted wires Measured values are multiplied by 10 to obtain the specified values. Differential Mode Noise Test Schematic DC/DC Converter OSCILLOSCOPE C1 C2 C3 + SUPPLY Input - + R1 T1 R2 Y INPUT Output - R LOAD www.murata.com KDC_MGJ3C.G01 Page 5 of 14 MGJ3 Series 5.2kVDC Isolated 3W Gate Drive SM DC-DC Converters APPLICATION NOTES Disable/Frequency synchronisation Please refer to application notes for further information. Min Pull Down Current Input High Input Low Frequency Range Duty Cycle Disable/Sync1 Synchronisation Typ 0.5 2 -0.6 90 25 100 Max 60 0.8 110 75 Units mA V V kHz % The Disable/Synchronization pin has three modes: 1. 2. 3. When a DC logic low voltage is applied to this pin the MGJ3 is disabled and enters a low quiescent current sleep mode. When this pin is left floating or a DC logic high (CMOS/TTL compatible) voltage is applied the MGJ3 is enabled and operates at the programmed frequency of 100kHz. When a square wave of between 90kHz and 110kHz is applied to this pin, the switcher operates at the same frequency as the square wave. The falling edge of the square wave corresponds to the start of the switching cycle. If the signal is slower than 25Hz, it will be interpreted as enabling and disabling the part. If the MGJ3 is disabled, it must be disabled for 7 clock cycles before being re-enabled. Note: The Dis/Sync pin is a high impedance TTL input and can be triggered by noise from external circuits if not treated carefully. Please refer to “LAYOUT CONSIDERATIONS” and “SYNCHRONISATION CIRCUIT” for further details. Click here for general guidance for gate drive applications. LAYOUT CONSIDERATIONS Unlike standard isolated DC-DC products the MGJ3 series has been designed specifically for high side gate drive applications where the outputs are being driven to a high voltage at a very high dV/dT. This is possible due to minimum transformer isolation capacitance and considered circuit design regarding common mode transient immunity. It is important that these few simple pcb layout guidelines are implemented so as not to compromise the performance of the DC-DC and that of the overall system. 1. The keep clear area shown must not have any copper traces even on internal layers. This is not only to avoid compromising the creepage and clearance distance but also to minimise capacitive isolation between the noisy output circuits and input control circuits. In general it is good practice to maintain the same band of clearance area running directly through both the DC-DC and the gate drive isolators as shown so that input and output are kept separate and do not overlap or mesh together at any point. 2. A top layer ground plane copper area connected to –Vin can be used to create an effective screen to the underside of the MGJ3 series and can also be used as a guard ring for the gate drive isolator inputs. If the Dis/Synch pin is being used then it is imperative that it follows a route covered by this screen to avoid differential pick up. It should also be kept as short as possible. Please refer to “PACKAGE SPECIFICATIONS” for recommended layout. SYNCHRONISATION CIRCUIT U1 C1 100nF DIS/Sync D1 R1 10kΩ Vin- Sync U2 C2 100nF DC-DC 1 DIS/Sync D2 R2 10kΩ Vin- DC-DC 2 1. A suggested synchronisation circuit is shown. C1 and C2 are 100nF capacitors. D1 and D2 are schottky diodes. The capacitive isolation and close connected diode ensures that a transition from high to low is seen at the input pin even in a noisy environment or when there is a slight ground shift between devices. 2. If the Dis/Sync pin is not used for synchronisation, then a 22nF capacitor can be added between the Dis/Sync pin and –Vin pin to improve noise immunity. If the functionality of Dis/Sync is not required, the Dis/Sync pin can be connected directly to the +Vin pin to improve noise immunity. 3. One very effective method to reduce common mode transient interference is to add a common mode filter to the DC input. It may only be necessary to add one before splitting the supply to each DC-DC. www.murata.com KDC_MGJ3C.G01 Page 6 of 14 MGJ3 Series 5.2kVDC Isolated 3W Gate Drive SM DC-DC Converters APPLICATION NOTES (Continued) Start-up times Typical start up times for this series, with no additional output capacitance are: Part No. MGJ3T05150505MC MGJ3T12150505MC MGJ3T24150505MC Start-up times ms 15 15 15 Output capacitance must not exceed: Output Voltage V 15 5 Maximum output capacitance μF 120 220 Output configurations for power switches Terminal IGBT SIC MOSFET (P10) 15V Output +15V 0.12A +20V 0.12A +15V 0.15A (P9) 15V Return 5VA Output 0V No connection 0V (P7) 5VA Return 5VB Output No connection 0V -5V 0.15A (P8) 5VB Return -10V 0.12A -5V 0.12A No connection www.murata.com KDC_MGJ3C.G01 Page 7 of 14 MGJ3 Series 5.2kVDC Isolated 3W Gate Drive SM DC-DC Converters APPLICATION NOTES (Continued) Schematic for driving IGBT, SiC & MOSFET MGJ DC-DC CONNECTIONS FOR DRIVING IGBT DEVICES OPTOCOUPLER PWM DRIVE IGBT 16 +Vin +15V 10 MGJ3Txx150505MC 9 0V 3 1 DIS/SYNC -Vin 7 NC IGBT 8 -10V MGJ DC-DC CONNECTIONS FOR DRIVING SiC DEVICES OPTOCOUPLER PWM DRIVE SiC 16 +Vin 10 +20V MGJ3Txx150505MC 7 0V 3 DIS/SYNC 9 NC SiC 1 -Vin 8 -5V MGJ DC-DC CONNECTIONS FOR DRIVING MOSFET DEVICES OPTOCOUPLER PWM DRIVE MOSFET 16 +Vin +15V 10 MGJ3Txx150505MC 0V 3 DIS/SYNC NC 9 8 MOSFET 1 -Vin -5V 7 www.murata.com KDC_MGJ3C.G01 Page 8 of 14 MGJ3 Series 5.2kVDC Isolated 3W Gate Drive SM DC-DC Converters EFFICIENCY VS LOAD MGJ3T12150505MC 90 90 80 80 70 70 60 60 Efficiency (%) Efficiency (%) MGJ3T05150505MC 50 40 50 40 30 30 20 20 10 10 0 0 10 20 30 40 50 60 70 80 90 100 10 20 30 40 50 60 70 80 90 100 Load (%) Load (%) MGJ3T24150505MC 90 80 70 Efficiency (%) 60 50 40 30 20 10 0 10 20 30 40 50 60 70 80 90 100 Load (%) www.murata.com KDC_MGJ3C.G01 Page 9 of 14 MGJ3 Series 5.2kVDC Isolated 3W Gate Drive SM DC-DC Converters DERATING GRAPHS Derating curves are based on IPC-9592. With no derating some components may be operating at the manufacturers maximum temperature ratings. MGJ3T05150505MC 100 90 Load (%) 80 70 4.5Vin & 5Vin still air / 4.5Vin & 9Vin 100lfm 60 9Vin still air 50 5Vin 100lfm / 9Vin 200lfm 40 4.5Vin & 5Vin 200lfm / 9Vin 400lfm 30 20 10 0 70 75 80 85 90 95 100 105 110 Temperature (°C) MGJ3T12150505MC 100 90 80 Load (%) 70 9Vin & 12Vin still air 60 18Vin still air 50 40 18Vin 100lfm 30 9Vin & 12Vin 100lfm / 9Vin, 12Vin & 18Vin 200lfm 20 10 0 70 75 80 85 90 95 100 105 110 Temperature (°C) MGJ3T24150505MC 100 90 80 Load (%) 70 18Vin still air / 24Vin 100lfm 60 24Vin still air 50 36Vin still air 40 18Vin 100lfm / 18Vin & 24Vin 200lfm 36Vin 100lfm 30 20 10 0 70 75 80 85 90 95 100 105 110 Temperature (°C) www.murata.com KDC_MGJ3C.G01 Page 10 of 14 MGJ3 Series 5.2kVDC Isolated 3W Gate Drive SM DC-DC Converters EMC FILTERING AND SPECTRA FILTERING The following filter circuit and filter table shows the input filters typically required to meet EN55022 Quasi-Peak Curve A or B. If a high dv/dt above 80kV/us is expected from output to input it is advised that a common mode filter is used on the input without Y capacitors. This will reduce the common mode current and reduce interference with primary side circuits. L1 C2 R1 DC C3 C4 C1 DC L2 TO MEET CURVE B Part Number MGJ3T05150505MC MGJ3T12150505MC MGJ3T24150505MC C1 1.5μF 1.5μF 1.5μF L1 L2 476R8SC 476R8SC 476R8SC C2 10nF 10nF 10nF C3 10nF 10nF 10nF R1 500mΩ 500mΩ 500mΩ C4 220μF 220μF 220μF C1, C2 & C3 Polyester or ceramic capacitor C4 Electrolytic capacitor (note R1 could be omitted if C4 has ESR >= R1) MGJ3T12150505MC 100 90 90 80 80 70 70 60 60 dBuV dBuV MGJ3T05150505MC 100 50 40 50 40 30 30 20 20 10 10 0 1.00E+05 1.00E+06 1.00E+07 1.00E+08 0 1.00E+05 1.00E+06 1.00E+07 1.00E+08 Frequency (Hz) Frequency (Hz) MGJ3T24150505MC 100 90 80 70 dBuV 60 50 40 30 20 10 0 1.00E+05 1.00E+06 1.00E+07 1.00E+08 Frequency (Hz) www.murata.com KDC_MGJ3C.G01 Page 11 of 14 MGJ3 Series 5.2kVDC Isolated 3W Gate Drive SM DC-DC Converters PACKAGE SPECIFICATIONS MECHANICAL DIMENSIONS PIN CONNECTIONS 23.11±0.10 [0.910±0.004] Pin Function 1 -Vin 3 Dis/Sync 5VA RTN 7 22.61±0.10 [0.890±0.004] 8 SMA PICKUP POINT 5VB 5VB RTN 15V RTN 9 SMA PICKUP POINT (TOP OF FERRITE CORE) 13.99±0.45 [0.551±0.018] 5VA 10 15 Vout 16 +Vin 14.19±0.45 [0.559±0.018] S RECOMMENDED FOOTPRINT DETAILS SEATING PLANE 0.10 S x7 PINS 5.08±0.25 [0.200±0.010] x7 PINS 1.60±0.05 [0 .063±0.002] 2.67±0.23 [0.105±0.009] 1 3 7 2.54 [0.100] 8 x7 PLACES 3.38 [0.133] 19.05 [0.750] 1.78±0.27 [0.070±0.011] RECOMMENDED ISOLATION BARRIER x7 PLACES 2.16 [0.085] 2.54 [0.100] 19.05±0.33 [0.750±0.013] 5.08 [0.200] 15.24 [0.600] 17.78 [0.700] x7 PINS 2.29±0.08 [0.090±0.003] 16 10 9 15.24±0.25 [0.600±0.010] RECOMMENDED LAYOUT 17.78±0.25 [0.700±0.010] -Vin GROUND PLANE All dimensions in mm (inches), Controlling dimensions is mm. Components shown for reference only NO COPPER IN THIS AREA ON ANY LAYER Weight: 10.70g Please refer to “LAYOUT CONSIDERATIONS” for further details. www.murata.com KDC_MGJ3C.G01 Page 12 of 14 MGJ3 Series 5.2kVDC Isolated 3W Gate Drive SM DC-DC Converters TAPE & REEL SPECIFICATIONS REEL OUTLINE DIMENSIONS REEL PACKAGING DETAILS Ø330 [13.000] MAX OR Ø177.8 [7.000] MAX [ 13.50 0.531 Ø 12.80 Ø 0.504 ] 50.40[1.984] MAX # GOODS ENCLOSURE SECTION LEADER SECTION 400 [15.748] MIN TRAILER SECTION 160 [6.299] MIN 100 [3.937] MIN 1.50 [0.059] MIN ## Ø20.20 [Ø0.795] MIN Tape & Reel specifications shall conform with current EIA-481 standard Unless otherwise stated all dimensions in mm(inches) Controlling dimension is mm # Measured at hub ## Six equally-spaced slots on 180mm/7” reel Product Orientation Pin 1, located nearest to carrier drive sprocket. Reel Quantity: 7” - 23 or 13” - 92 TAPE OUTLINE DIMENSIONS 1.75 [0.069] Ø2.0 [Ø 0.079] MIN 2.0 [0.079] 4.0 [0.157] [ +0.004 +0.1 Ø1.5 -0.0 Ø0.059 -0.000 ] 3° MAX 20.2±0.15 [0.795±0.006] 44.0±0.3 [1.7323±0.012] #23.7 [0.933] 40.4 [1.591] COVER TAPE 0.2 ±0.05 3° MAX 23.2 [0.913] # 0.6 [0.024] MAX 15.65 [0.616] Tape & Reel specifications shall conform with current EIA-481 standard Unless otherwise stated all dimensions in mm(inches) ±0.1mm (±0.004 Inches) Controlling dimension is mm Components shall be orientated within the carrier tape as indicated # Measured on a plane 0.3mm above the bottom pocket 36.0 [1.417] DIRECTION OF UNREELING www.murata.com KDC_MGJ3C.G01 Page 13 of 14 MGJ3 Series 5.2kVDC Isolated 3W Gate Drive SM DC-DC Converters DISCLAIMER Unless otherwise stated in the datasheet, all products are designed for standard commercial and industrial applications and NOT for safety-critical and/or life-critical applications. Particularly for safety-critical and/or life-critical applications, i.e. applications that may directly endanger or cause the loss of life, inflict bodily harm and/or loss or severe damage to equipment/property, and severely harm the environment, a prior explicit written approval from Murata is strictly required. Any use of Murata standard products for any safety-critical, life-critical or any related applications without any prior explicit written approval from Murata shall be deemed unauthorised use. These applications include but are not limited to: • Aircraft equipment • Aerospace equipment • Undersea equipment • Power plant control equipment • Medical equipment • Transportation equipment ( automobiles, trains, ships, etc.) • Traffic signal equipment • Disaster prevention / crime prevention equipment • Data Processing equipment Murata makes no express or implied warranty, representation, or guarantee of suitability, fitness for any particular use/purpose and/or compatibility with any application or device of the buyer, nor does Murata assume any liability whatsoever arising out of unauthorised use of any Murata product for the application of the buyer. The suitability, fitness for any particular use/purpose and/or compatibility of Murata product with any application or device of the buyer remain to be the responsibility and liability of the buyer. Buyer represents and agrees that it has all the necessary expertise to create and implement safeguards that anticipate dangerous consequences of failures, monitor failures and their consequences, lessen the likelihood of failures that might cause harm, and take appropriate remedial actions. Buyer will fully indemnify and hold Murata, its affiliated companies, and its representatives harmless against any damages arising out of unauthorised use of any Murata products in any safety-critical and/ or life-critical applications. Remark: Murata in this section refers to Murata Manufacturing Company and its affiliated companies worldwide including, but not limited to, Murata Power Solutions. This product is subject to the following operating requirements and the Life and Safety Critical Application Sales Policy: Refer to: https://www.murata.com/en-eu/products/power/requirements Murata Power Solutions (Milton Keynes) Ltd. makes no representation that the use of its products in the circuits described herein, or the use of other technical information contained herein, will not infringe upon existing or future patent rights. The descriptions contained herein do not imply the granting of licenses to make, use, or sell equipment constructed in accordance therewith. Specifications are subject to change without notice. © 2022 Murata Power Solutions (Milton Keynes) Ltd. www.murata.com KDC_MGJ3C.G01 Page 14 of 14