6ED003L06F2XUMA1

6ED003-F2 family 6ED003L02-F2 and 6ED003L06-F2 family 200 V and 600 V three-phase gate driver with Over Current Protection (OCP), Enable (EN) and Fault Features • • • • • • • • • Infineon thin-film-SOI-technology Maximum blocking voltage +600 V Output source/sink current +0.165 A/-0.375 A Insensitivity of the bridge output to negative transient voltages up to -50 V given by SOItechnology Separate control circuits for all six drivers Detection of over current and under voltage supply Externally programmable delay for fault clear after over current detection 'Shut down' of all switches during error conditions Signal interlocking of every phase to prevent crossconduction Product summary VOFFSET (6ED003L06-F2) VOFFSET (6ED003L02-F2) IO+/- (typ.) ton / toff tf/tr (typ. CL=1 nF) = 620 V max. = 200 V max. = +0.165 A / -0.375 A = 530ns / 490 ns = 60 ns / 26 ns Package DSO-28 TSSOP-28 Potential applications • • • • Home appliance, refrigeration compressors, air-conditioning Fans, pumps Motor drives, general purpose inverters Power tools, light electric vehicles Product validation Qualified for industrial applications according to the relevant tests of JEDEC47/20/22. Description The devices are full bridge drivers to control power devices like MOSFET or IGBTs in 3-phase systems with a maximum blocking voltage of +600 V. Based on the used SOI-technology there is an excellent ruggedness on transient voltages. No parasitic thyristor structures are present in the device. Hence, no parasitic latch-up may occur at all temperatures and voltage conditions. The six independent drivers are controlled at the low-side using CMOS resp. LSTTL compatible signals, down to 3.3 V logic. The device includes an under-voltage detection unit with hysteresis characteristic and an overcurrent detection. The over-current level is adjusted by choosing the resistor value and the threshold level at pin ITRIP. Both error conditions (under-voltage and over-current) lead to a definite shut down of all six switches. An error signal is provided at the FAULT open drain output pin. The blocking time after over-current can be adjusted with an RC-network at pin RCIN. The input RCIN owns an internal current source of 2.8 µA. Therefore, the resistor RRCIN is optional. The typical output current can be given with 165 mA for pull-up and 375 mA for pull down. Because of system safety reasons a 310 ns interlocking time has been realised. The function of input EN can optionally be extended with over-temperature detection, using an external NTC-resistor (see Figure 1). 6ED003-F2 family Datasheet Please read the Important Notice and Warnings at the end of this document www.infineon.com/gdThreePhase 1 of 19 Version 2.9 2019-03-21 6ED003-F2 family 200 V & 600 V three-phase driver with Over Current Protection, Enable and Fault Ordering information DC-Bus VCC VCC HIN1,2,3 LIN1,2,3 EN HIN1,2,3 LIN1,2,3 EN VB1,2,3 HO1,2,3 To Load VS1,2,3 5V FAULT FAULT RRCIN CRCIN VSS Figure 1 RCIN LO1,2,3 COM ITRIP VSS R Sh Typical application diagram Ordering information Table 1 Members of 6ED003-F2 family – 2nd generation Sales Name 6ED003L06-F2 / 6ED003L02-F2 High side control input Typ. UVLOHIN1,2,3 and LIN1,2,3 Thresholds Negative logic 11.7 V / 9.8 V Bootstra p diode No Package DSO28 / TSSOP28 Table of contents Features ......................................................................................................................................................... 1 Product summary .......................................................................................................................................... 1 Package .......................................................................................................................................................... 1 Potential applications ................................................................................................................................... 1 Product validation ......................................................................................................................................... 1 Description ..................................................................................................................................................... 1 Ordering information ..................................................................................................................................... 2 Table of contents ........................................................................................................................................... 2 1 Block diagram ...................................................................................................................................... 3 2 Lead definitions .................................................................................................................................... 4 3 3.1 3.2 3.3 3.4 3.5 3.6 3.7 Functional description ......................................................................................................................... 5 Low Side and High Side Control Pins (Pin 2, 3, 4, 5, 6, 7) ....................................................................... 5 EN (Gate Driver Enable, Pin 10)............................................................................................................... 5 /FAULT (Fault Feedback, Pin 8)............................................................................................................... 6 ITRIP and RCIN (Over-Current Detection Function, Pin 9, 11) ............................................................... 6 VCC, VSS and COM (Low Side Supply, Pin 1, 12, 13) ............................................................................... 6 VB1, 2, 3 and VS1, 2, 3 (High Side Supplies, Pin 18, 20, 22, 24, 26, 28) ................................................... 6 LO1,2,3 and HO1,2,3 (Low and High Side Outputs, Pin 14, 15, 16, 19, 23, 27)....................................... 7 4 4.1 4.2 Electrical parameters ........................................................................................................................... 8 Absolute maximum ratings ..................................................................................................................... 8 Required operation conditions............................................................................................................... 9 6ED003-F2 family Datasheet www.infineon.com/gdThreePhase 2 of 19 Version 2.9 2019-03-21 6ED003-F2 family 200 V & 600 V three-phase driver with Over Current Protection, Enable and Fault Table of contents 4.3 4.4 4.5 4.6 Operating Range ..................................................................................................................................... 9 Static logic function table ..................................................................................................................... 10 Static parameters .................................................................................................................................. 10 Dynamic parameters ............................................................................................................................. 12 5 Timing diagrams ................................................................................................................................. 13 6 6.1 6.2 6.3 Package information .......................................................................................................................... 15 PG-DSO-28 ............................................................................................................................................. 15 PG-TSSOP-28 ......................................................................................................................................... 16 PG-TSSOP-28 (according to PCN 2018-165-A)...................................................................................... 16 7 Qualification information ................................................................................................................... 18 8 Related products ................................................................................................................................ 18 Revision history ........................................................................................................................................... 18 1 Block diagram BIAS NETWORK / VDD2 INPUT NOISE FILTER HIN1 LIN1 INPUT NOISE FILTER HIN2 INPUT NOISE FILTER LIN2 INPUT NOISE FILTER HIN3 INPUT NOISE FILTER DEADTIME & SHOOT-THROUGH PREVENTION z HV LEVEL-SHIFTER + REVERSE-DIODE COMPAR ATOR LATCH UVDETECT GateDrive HO1 VS1 VB2 BIAS NETWORK - VB2 DEADTIME & SHOOT-THROUGH PREVENTION HV LEVEL-SHIFTER + REVERSE-DIODE COMPAR ATOR LATCH UVDETECT GateDrive HO2 VS2 VB3 BIAS NETWORK / VB3 DEADTIME & SHOOT-THROUGH PREVENTION HV LEVEL-SHIFTER + REVERSE-DIODE COMPAR ATOR INPUT NOISE FILTER LIN3 VB1 BIAS NETWORK - VB1 LATCH UVDETECT GateDrive HO3 VS3 >1 INPUT NOISE FILTER EN ITRIP VCC UVDETECT DELAY VSS / COM LEVELSHIFTER GateDrive LO1 DELAY VSS / COM LEVELSHIFTER GateDrive LO2 DELAY VSS / COM LEVELSHIFTER GateDrive LO3 INPUT NOISE FILTER S VDD2 Q SET DOMINANT LATCH R IRCIN RCIN COM FAULT VSS >1 Figure 2 Functional block diagram for 6ED003L06-F2 / 6ED003L02-F2 6ED003-F2 family Datasheet www.infineon.com/gdThreePhase 3 of 19 Version 2.9 2019-03-21 6ED003-F2 family 200 V & 600 V three-phase driver with Over Current Protection, Enable and Fault 2 Table 2 Pin no. Lead definitions 6ED003-F2 family lead definitions Name Function 1 VCC Low side power supply 2,3,4 /HIN1,2,3 High side logic input 5,6,7 /LIN1,2,3 Low side logic input 8 /FAULT Indicates over-current and under-voltage (negative logic, open-drain output) 9 ITRIP Analog input for over-current shut down, activates FAULT and RCIN to VSS 10 EN Enable I/O functionality (positive logic) 11 RCIN External RC-network to define FAULT clear delay after FAULT-Signal (TFLTCLR) 12 VSS Logic ground 13 COM Low side gate driver reference 28,24,20 VB1,2,3 High side positive power supply 27,23,19 HO1,2,3 High side gate driver output 26,22,18 VS1,2,3 High side negative power supply 16,15,14 LO1,2,3 Low side gate driver output 21,25 nc Not connected 1 VCC VB1 2 HIN1 HO1 27 3 HIN2 VS1 26 4 HIN3 nc 25 5 LIN1 VB2 24 6 LIN2 HO2 23 7 LIN3 VS2 22 8 FAULT nc 21 9 ITRIP VB3 20 10 EN HO3 19 11 RCIN VS3 18 nc 17 13 COM LO1 16 14 LO3 LO2 15 12 VSS Figure 3 28 Pin Configuration of 6ED003L06-F2 and 6ED003L02-F2 6ED003-F2 family Datasheet www.infineon.com/gdThreePhase 4 of 19 Version 2.9 2019-03-21 6ED003-F2 family 200 V & 600 V three-phase driver with Over Current Protection, Enable and Fault 3 Functional description 3.1 Low Side and High Side Control Pins (Pin 2, 3, 4, 5, 6, 7) The Schmitt trigger input threshold of them are such to guarantee LSTTL and CMOS compatibility down to 3.3 V controller outputs. Input Schmitt trigger and noise filter provide beneficial noise rejection to short input pulses according to Figure 4 and Figure 5. Vcc Schmitt-Trigger HINx LINx Figure 4 INPUT NOISE FILTER UZ=10.5V SWITCH LEVEL VIH; VIL Input pin structure An internal pull-up of about 75 kΩ (negative logic) pre-biases the input during supply start-up and a ESD zener clamp is provided for pin protection purposes. The zener diodes are therefore designed for single pulse stress only and not for continuous voltage stress over 10 V. tFILIN tFILIN LIN on HIN off on HIN LIN off on off high HO LO LO HO Figure 5 low Input filter timing diagram It is anyway recommended for proper work of the driver not to provide input pulse-width lower than 1 µs. The 6ED-F2 driver IC provide additionally a shoot through prevention capability which avoids the simultaneous on-state of two channels of the same leg (i.e. HO1 and LO1, HO2 and LO2, HO3 and LO3). When two inputs of a same leg are activated, only one leg output is activated, so that the leg is kept steadily in a safe state. A minimum dead time insertion of typ. 310 ns is also provided, in order to reduce cross-conduction of the external power switches. 3.2 EN (Gate Driver Enable, Pin 10) The signal applied to pin EN controls directly the output stages. All outputs are set to LOW, if EN is at LOW logic level. The internal structure of the pin is given in Figure 6. The switching levels of the Schmitt-Trigger are here VEN,TH+ = 2.1 V and VEN,TH- = 1.3 V. The typical propagation delay time is tEN = 780 ns. There is an internal pull down resistor (75 kΩ), which keeps the gate outputs off in case of broken PCB connection. EN IEN+, IEN- VZ= 10.5 V VEN,TH+, VEN,TH- INPUT NOISE FILTER 6ED family – 2nd generation Figure 6 EN pin structures 6ED003-F2 family Datasheet www.infineon.com/gdThreePhase 5 of 19 Version 2.9 2019-03-21 6ED003-F2 family 200 V & 600 V three-phase driver with Over Current Protection, Enable and Fault 3.3 /FAULT (Fault Feedback, Pin 8) /Fault pin is an active low open-drain output indicating the status of the gate driver (see Error! Reference source not found.). The pin is active (i.e. forces LOW voltage level) when one of the following conditions occur: • Under-voltage condition of VCC supply: In this case the fault condition is released as soon as the supply voltage condition returns in the normal operation range (please refer to VCC pin description for more details). • Over-current detection (ITRIP): The fault condition is latched until current trip condition is finished and RCIN input is released (please refer to ITRIP pin). VDD FAULT Figure 7 3.4 6ED family – 2nd generation VCC RON,FLT >1 from ITRIP-Latch from uv-detection /FAULT pin structures ITRIP and RCIN (Over-Current Detection Function, Pin 9, 11) The 6ED family – 2nd generation provides an over-current detection function by connecting the ITRIP input with the motor current feedback. The ITRIP comparator threshold (typ 0.44 V) is referenced to VSS ground. An input noise filter (typ. tITRIPMIN = 230 ns) prevents the driver to detect false over-current events. Over-current detection generates a hard shut down of all outputs of the gate driver and provides a latched fault feedback at /FAULT pin. RCIN input/output pin is used to determine the reset time of the fault condition. As soon as ITRIP threshold is exceeded the external capacitor connected to RCIN is fully discharged. The capacitor is then recharged by the RCIN current generator when the over-current condition is finished. As soon as RCIN voltage exceeds the rising threshold of typ VRCIN,TH = 5.2 V, the fault condition releases and the driver returns operational following the ontrol input pins according to section 3.1. 3.5 VCC, VSS and COM (Low Side Supply, Pin 1, 12, 13) VCC is the low side supply and it provides power both to input logic and to low side output power stage. Input logic is referenced to VSS ground as well as the under-voltage detection circuit. Output power stage is referenced to COM ground. COM ground is floating respect to VSS ground with a maximum range of operation of +/-5.7 V. A back-to-back zener structure protects grounds from noise spikes. The under-voltage circuit enables the device to operate at power on when a typical supply voltage higher than VCCUV+ is present. The IC shuts down all the gate drivers power outputs, when the VCC supply voltage is below VCCUV- = 9.8 V. This prevents the external power switches from critically low gate voltage levels during on-state and therefore from excessive power dissipation. Please consult the individual output characteristic of the driven transistor. 3.6 VB1, 2, 3 and VS1, 2, 3 (High Side Supplies, Pin 18, 20, 22, 24, 26, 28) VB to VS is the high side supply voltage. The high side circuit can float with respect to VSS following the external high side power device emitter/source voltage. Due to the low power consumption, the floating driver stage can be supplied by bootstrap topology connected to VCC. The device operating area as a function of the supply voltage is given in Figure 12. 6ED003-F2 family Datasheet www.infineon.com/gdThreePhase 6 of 19 Version 2.9 2019-03-21 6ED003-F2 family 200 V & 600 V three-phase driver with Over Current Protection, Enable and Fault 3.7 LO1,2,3 and HO1,2,3 (Low and High Side Outputs, Pin 14, 15, 16, 19, 23, 27) Low side and high side power outputs are specifically designed for pulse operation such as gate drive of IGBT and MOSFET devices. Low side outputs (i.e. LO1,2,3) are state triggered by the respective inputs, while high side outputs (i.e. HO1,2,3) are edge triggered by the respective inputs. In particular, after an under voltage condition of the VBS supply, a new turn-on signal (edge) is necessary to activate the respective high side output, while after a under voltage condition of the VCC supply, the low side outputs switch to the state of their respective inputs. 6ED003-F2 family Datasheet www.infineon.com/gdThreePhase 7 of 19 Version 2.9 2019-03-21 6ED003-F2 family 200 V & 600 V three-phase driver with Over Current Protection, Enable and Fault 4 Electrical parameters 4.1 Absolute maximum ratings All voltages are absolute voltages referenced to VSS -potential unless otherwise specified. All parameters are valid for Ta=25 °C. Table 3 Absolute maximum ratings Parameter Symbol Min. VCC-VBS-6 Max. 600 180 VCC -VBS – 50 – VCC – 6 620 200 High side offset voltage (tp 1 µs Input filter time EN Fault clear time at RCIN after ITRIP-fault, (CRCin=1nF) Dead time Output pulse width matching. Pwin-PWout 6ED003-F2 family Datasheet www.infineon.com/gdThreePhase MTOFF PM 12 of 19 VLIN/HIN = 0 & 3.3 V VITRIP = 0 VLIN/HIN = 0 & 3.3 V Version 2.9 2019-03-21 6ED003-F2 family 200 V & 600 V three-phase driver with Over Current Protection, Enable and Fault 5 Timing diagrams tFILIN tFILIN HIN/LIN tIN HIN/LIN tIN tIN < tFILIN tIN < tFILIN high HO/LO low HO/LO HIN/LIN tIN HIN/LIN tIN tIN > tFILIN tIN > tFILIN HO/LO HO/LO Figure 8 Timing of short pulse suppression LIN1,2,3 1.65V 1.65V HIN1,2,3 12V LO1,2,3 3V DT DT 12 V HO1,2,3 3V Figure 9 Timing of internal deadtime EN tEN HO1,2,3 LO1,2,3 Figure 10 3V Enable delay time definition PWIN LIN1,2,3 HIN1,2,3 1.65V ton 1.65V 12V HO1,2,3 LO1,2,3 3V Figure 11 toff tr tf 12V PWOUT 3V Input to output propagation delay times and switching times definition 6ED003-F2 family Datasheet www.infineon.com/gdThreePhase 13 of 19 Version 2.9 2019-03-21 6ED003-F2 family 200 V & 600 V three-phase driver with Over Current Protection, Enable and Fault VCCMAX , VBSMAX vCC vBS 20 V 17.5 13 VCCUV+, VBSUV+ 11.7 VCCUV-, VBSUV- 9.8 t IC STATE OFF Figure 12 ON ON Recommended Area Forbidden Area ON ON ON Recommended Area ON OFF Operating areas VRCIN,TH RCIN ITRIP 0.1V 0.1V FAULT Any output Figure 13 tFLTCLR 3V tITRIP ITRIP-Timing tITRIPMIN ITRIP /FAULT Figure 14 1V 0.5V tFLT tITRIPMIN tIN tIN high tFLTCLR ITRIP input filter time 6ED003-F2 family Datasheet www.infineon.com/gdThreePhase 14 of 19 Version 2.9 2019-03-21 6ED003-F2 family 200 V & 600 V three-phase driver with Over Current Protection, Enable and Fault 6 6.1 Figure 15 Package information PG-DSO-28 Package drawing Dimensions 80.0 × 80.0 × 1.5 mm³ λtherm [W/m⋅K] Material FR4 0.3 Metal (Copper) 70µm Figure 16 388 PCB reference layout 6ED003-F2 family Datasheet www.infineon.com/gdThreePhase 15 of 19 Version 2.9 2019-03-21 6ED003-F2 family 200 V & 600 V three-phase driver with Over Current Protection, Enable and Fault 6.2 PG-TSSOP-28 Footprint for Reflow soldering e = 0.65 A = 6.10 L = 1.30 B = 0.40 Figure 17 6.3 Figure 18 Package drawing PG-TSSOP-28 (according to PCN 2018-165-A) Package drawing 6ED003-F2 family Datasheet www.infineon.com/gdThreePhase 16 of 19 Version 2.9 2019-03-21 6ED003-F2 family 200 V & 600 V three-phase driver with Over Current Protection, Enable and Fault Figure 19 PCB reference layout (according to JEDEC 1s0P) left: Reference layout right: detail of footprint Table 8 Data of reference layout Dimensions Material Metal (Copper) 76.2 × 114.3 × 1.5 mm³ FR4 (λtherm = 0.3 W/mK) 70µm (λtherm = 388 W/mK) 6ED003-F2 family Datasheet www.infineon.com/gdThreePhase 17 of 19 Version 2.9 2019-03-21 6ED003-F2 family 200 V & 600 V three-phase driver with Over Current Protection, Enable and Fault 7 Table 9 Qualification information 1 Qualification information Qualification level Moisture sensitivity level Charged device model ESD Human body model RoHS compliant 8 Industrial 2 Note: This family of ICs has passed JEDEC’s Industrial qualification. Consumer qualification level is granted by extension of the higher Industrial level. MSL3 3, 260°C TSSOP-28/DSO-28 (per IPC/JEDEC J-STD-020) Class C3 (> 1.0 kV) (per JESD22-C101) 6ED003L06-F2 Class 2 (per JEDEC standard JESD22-A114) 6ED003L02-F2 Class 1C (per JEDEC standard JESD22-A114) Yes Related products Table 10 Gate Driver ICs 6EDL04I06NT/ 6EDL04I06PT 6EDL04N06PT 6EDL04N02PR 2EDL05I06 / 2EDL05N06 2EDL23I06 / 2EDL23N06 200 V & 600 V three-phase driver with OCP, Enable, Fault and integrated high speed, low RDS(ON) Bootstrap Diode, +0.165 A / -0.375 A source/sink current, for MOSFET or IGBT. Evaluation board available. 600 V, half-bridge thin-film SOI level shift gate driver with integrated high speed, low RDS(ON) bootstrap diode, 0.36/0.7 A source/sink current driver, 8pins/14pins package, for MOSFET or IGBT. 600 V, half-bridge thin-film SOI gate driver with integrated high speed, low RDS(ON) bootstrap diode, OCP, 2.3/2.8 A source/sink current driver, and one pin Enable/Fault function for MOSFET or IGBT. Power Switches IKD04N60R / RF IKD06N65ET6 IPD65R950CFD IPN50R950CE 600 V TRENCHSTOP™ IGBT with integrated diode in PG-TO252-3 package 650 V TRENCHSTOP™ IGBT with integrated diode in DPAK 650 V CoolMOS CFD2 with integrated fast body diode in DPAK 500 V CoolMOS CE Superjunction MOSFET in PG-SOT223 package iMOTION™ Controllers iMOTION™ Motor control IC for variable speed drives utilizing sensor-less Field Oriented Control IRMCK099 (FOC) for Permanent Magnet Synchronous Motors (PMSM). High performance Motor Control IC for variable speed drives based on field oriented control (FOC) IMC101T of permanent magnet synchronous motors (PMSM). Revision history Document version Date of release Description of changes 2.8 Increased the maximum operating ambient temperature to 105 °C 2016-08-05 Updated disclaimer, Delete links to application note Corrected parameter VHO 2.9 2019-01-11 Updated ESD HBM information, and add package drawing PG-TSSOP-28 Qualification standards can be found at Infineon’s web site www.infineon.com Higher qualification ratings may be available should the user have such requirements. Please contact your Infineon sales representative for further information. 3 Higher MSL ratings may be available for the specific package types listed here. Please contact your Infineon sales representative for further information. 6ED003-F2 family Datasheet 18 of 19 Version 2.9 www.infineon.com/gdThreePhase 2019-03-21 1 2 Trademarks All referenced product or service names and trademarks are the property of their respective owners. Edition 2019-03-21 Published by Infineon Technologies AG 81726 Munich, Germany © 2019 Infineon Technologies AG. All Rights Reserved. Do you have a question about this document? Email: erratum@infineon.com Document reference IMPORTANT NOTICE The information given in this document shall in no event be regarded as a guarantee of conditions or characteristics (“Beschaffenheitsgarantie”) . With respect to any examples, hints or any typical values stated herein and/or any information regarding the application of the product, Infineon Technologies hereby disclaims any and all warranties and liabilities of any kind, including without limitation warranties of non-infringement of intellectual property rights of any third party. In addition, any information given in this document is subject to customer’s compliance with its obligations stated in this document and any applicable legal requirements, norms and standards concerning customer’s products and any use of the product of Infineon Technologies in customer’s applications. The data contained in this document is exclusively intended for technically trained staff. It is the responsibility of customer’s technical departments to evaluate the suitability of the product for the intended application and the completeness of the product information given in this document with respect to such application. For further information on the product, technology delivery terms and conditions and prices please contact your nearest Infineon Technologies office (www.infineon.com). Please note that this product is not qualified according to the AEC Q100 or AEC Q101 documents of the Automotive Electronics Council. WARNINGS Due to technical requirements products may contain dangerous substances. For information on the types in question please contact your nearest Infineon Technologies office. Except as otherwise explicitly approved by Infineon Technologies in a written document signed by authorized representatives of Infineon Technologies, Infineon Technologies’ products may not be used in any applications where a failure of the product or any consequences of the use thereof can reasonably be expected to result in personal injury.