IRS26310DJPBF – High-Voltage 3-Phase Gate Driver IC with DC Bus Over-Voltage Protection HVIC / MOTOR CONTROL IRS26310D typical application connection IRS26310DJPbF DCBUS + High-Voltage 3-Phase Gate Driver IC with DC Bus Over-Voltage Protection THE POWER MANAGEMENT LEADER Input Voltage To Load DCBUS Sense – DCBUSSense IRS26310DJPbF VCC Summary Typical Connection Diagram Topology 3-Phase VOFFSET ≤ 600V VOUT 12V - 20V IO+ & IO- (typical) 200mA & 350mA tON & tOFF (typical) 530ns & 530ns Deadtime (typical) 290ns Package 44-lead PLCC IRS26310DJPbF Features •Drives up to six IGBT/MOSFET power devices Control Inputs, EN •Gate drive supplies up to 20 V per channel •Integrated bootstrap functionality •DC bus sensing with over-voltage protection IRS26310D Functional Block Diagram Schmitt-Trigger Inputs, Noise Filter and Shoot-through Protection VSS DC+ bus •Over-current protection DC Bus Sense Comparator Input and Filter •Over-temperature shutdown input •Advanced input filter DCbusSense Logic VCC 600V 3-Phase Gate Drive IC with UVLO Protection High-Side Input (x3) •Integrated deadtime protection •Shoot-through (cross-conduction) protection •Under-voltage lockout for VCC and VBS HV Well •Enable/disable input and fault reporting VS: High-Side Power Supply (x3) Low-Side Input (x3) •Adjustable fault clear timing High-Side Output (x3) FAULT/EN Logic HV Level Shifters VS: High-Side Return (x3) •Separate logic and power grounds To High-Side Power Switches (x3) ITRIP Delay Low-Side Output (x3) To Low-Side Power Switches (x3) The IRS26310DJPbF from International Rectifier is a high-voltage, high speed power MOSFET and IGBT driver with three independent high- and low-side referenced output channels for three-phase applications. The bootstrap diode functionality has been integrated into this device to reduce the component count and PCB size. The new device has been designed for three-phase inverters and is well suited to the requirements of PM motors in washers as it enables high torque at low speed (during washing) and reaches high speed with low torque demand (during spinning). This highly accurate torque and speed control delivers an efficient washing cycle while reducing the motor flux to enable a high spinning speed that helps deliver a more efficient drying function in compliance with safety regulations. •-40˚C to 125˚C operating range •RoHS compliant Drum Torque 30Nm Typical Applictions •Permanent magnet motor drives for appliances General Purpose Comparator Input & Filter For more information, call +(33) 1 64 86 49 53 or +49 6102 884 311 or visit us at www.irf.com Furthermore, government regulations are becoming more and more stringent in terms of efficiency and safety. In the near future, a new energy labeling scheme may be introduced in Europe – and the only way to achieve the highest class label will be to equip the washer with a three-phase permanent magnet (PM) motor. •Matched propagation delays for all channels LV Drive Stage IC detects overcurrent and performs shutdown Modern washer manufacturers require state-of-the-art electronic components to deliver more sophisticated features to the end user. The aim is to create a machine that can wash almost all types of fabric with minimum energy, in less time and using less detergent than previous models – without increasing the overall system cost. •Industrial drives •Micro inverter drives 10207FS 5Nm Wash cycle: High torque low speed COM VSS •Tolerant to negative transient voltage •Designed for use with bootstrap power supplies HV Drive Stage RCIN •3.3 V input logic compatible Higher Efficiency Two extreme point control Field weakening operation (Reduce flux to keep voltage from saturation) Spin: Low torque high speed 1800rpm Speed For more information, call +(33) 1 64 86 49 53 or +49 6102 884 311 or visit us at www.irf.com 10207FS IRS26310DJPbF – High-Voltage 3-Phase Gate Driver IC with DC Bus Over-voltage Protection DC + BUS VB (x3) CBS HO (x3) VBUS > VTH, BUS DCBUS Sense VS ITRIP VSS RG, HO 0 OFF (x3) LO (x3) OFF VS1 RG, LO ON OFF VS2 ON 0 -10 VS3 200 300 IRS26310DJPbF 700 800 900 1000 Tested, guaranteed safe operating area -30 ON COM -40 -50 -60 Phase Current RSHUNT 100 Time (ns) 400 500 600 -20 IRS26310DJPbF brakes the motor by shorting the motor terminal and avoiding excessive over-voltage VI (V) VCC Control is lost: DCBUS voltage rises quickly due to voltage regeneration. -70 IRS26310DJPbF Safe Operating Area under repetitive negative spikes -80 -90 DC – BUS DC Bus over-voltage protection scheme in IRS2631DJ Overall Benefits Washers equipped with PM motors present a new challenge to washer manufacturers because, while in spinning mode, the motor itself can become dangerous in the event that control is lost. To reach the necessary high speed during spinning, the motor must be de-fluxed in real-time fashion. This artificial de-fluxing prevents the motor from generating a significant voltage. Problems arise if, in the event of controller failure, the motor is left rotating without controlling the applied voltage to it. The motor will then act as a dynamo, generating a high voltage (above 1000V) that can create a fire hazard in the electronics. The IRS26310DJPbF from International Rectifier has been designed with a specific hardware safety function that can override the controller commands and brake the PM motor (by shorting its terminals) until a safe low speed is reached, thus avoiding high voltage generation. The IRS26310DJPbF continuously senses the DC Bus through an external resistor divider and, if a critical voltage is reached, the IRS26310DJPbF successfully brakes the motor by shorting the terminal through low-side switches. A generic HVIC three-phase gate driver would require an added external cicuit to perform the same function as • • Increased Reliability Input filters have been re-designed to avoid small pulse commands reaching the gates of the switches in the inverter. This is one of the sources of problems in the field and usually it is difficult to detect. The typical effect is that sometimes inverters return from the field damaged with one destroyed leg without an apparent root cause. The IRS26310DJPbF embeds filters that solve this issue. The IRS26310DJPbF from International Rectifier is part of the company’s latest family of gate drivers designed to be the most rugged in the market for hard switching environments such as motor control circuits. A typical problem in voltage source inverters with inductive loads (as in the motor control domain) is that the hard switching generates negative voltage spikes whose amplitude and duration depend on the switches and on the layout of the application PCB. Each of these spikes occurs at PWM frequency, so in some operating conditions, they can occur 16000 times per second. In the IRS26310DJPbF datasheet the Safe Operating Area for this HVIC under these conditions is specified. +VBUS LD2 HO VBUS Q2 Control IC VS Undershoot LS2 VS To Load LD1 COM LO Reduced component count because the high-voltage clamping diodes used in other solutions are no longer necessary; Fewer field returns because the robust IR HVIC does not fail in an unpredictable manner unlike other solutions In addition to improved filtering techniques, the IRS26310DJPbF also guarantees outstanding matching in propagation time on all channels as well as dead-time automatically inserted when external dead-time is lower than a minimum safe limit. Cost-effectiveness While including all features in the design of the new rugged family of motion gate drivers, International Rectifier considered the overall system cost requirements of its customers. Therefore, the IRS26310DJPbF includes many features that are required in modern applications while keeping external component count at minimum. With fewer components and field returns, the overall system cost is lower. Advanced Input Filtering in IRS26321DJ EXAMPLE 1 Safety regulations enforced by law require that every appliance must meet precise international rules. Every appliance must include safety protection circuits either in hardware or in software that avoid hazards to the end user in case of failure of any of the components in the machine. By law, every circuit that implements a protective function must be certified by an internationally recognized institute. IRS26310DJPbF. This function is mandatory because it is required for safety purposes. The IRS26310DJPbF also embeds all other important protection that are used for safety reasons: anti-shoot through, over-current protection, under-voltage lockout and thermal shutdown input. EXAMPLE 2 Greater Safety tFIL,IN IN IN OUT tFIL,IN OUT tFIL,IN IN Small pulses to the gate of the switches may cause inverter damage IN OUT tFIL,IN OUT VS -COM COMPETITOR’S HVIC IRS26310DJPbF HVIC Q1 LS1 -VS Load Return Tolerant to negative transient voltage t MT TON, TOFF matching time (on all six channels) 50ns Max MDT DT matching (HIN ->LO & LO->HIN on all channels) 60ns Max PM Pulse width distortion 75ns Max Outstanding deadtime and delay matching in IRS2631DJ along with low pulse width distortion IRS26310DJPbF – High-Voltage 3-Phase Gate Driver IC with DC Bus Over-voltage Protection DC + BUS VB (x3) CBS HO (x3) VBUS > VTH, BUS DCBUS Sense VS ITRIP VSS RG, HO 0 OFF (x3) LO (x3) OFF VS1 RG, LO ON OFF VS2 ON 0 -10 VS3 200 300 IRS26310DJPbF 700 800 900 1000 Tested, guaranteed safe operating area -30 ON COM -40 -50 -60 Phase Current RSHUNT 100 Time (ns) 400 500 600 -20 IRS26310DJPbF brakes the motor by shorting the motor terminal and avoiding excessive over-voltage VI (V) VCC Control is lost: DCBUS voltage rises quickly due to voltage regeneration. -70 IRS26310DJPbF Safe Operating Area under repetitive negative spikes -80 -90 DC – BUS DC Bus over-voltage protection scheme in IRS2631DJ Overall Benefits Washers equipped with PM motors present a new challenge to washer manufacturers because, while in spinning mode, the motor itself can become dangerous in the event that control is lost. To reach the necessary high speed during spinning, the motor must be de-fluxed in real-time fashion. This artificial de-fluxing prevents the motor from generating a significant voltage. Problems arise if, in the event of controller failure, the motor is left rotating without controlling the applied voltage to it. The motor will then act as a dynamo, generating a high voltage (above 1000V) that can create a fire hazard in the electronics. The IRS26310DJPbF from International Rectifier has been designed with a specific hardware safety function that can override the controller commands and brake the PM motor (by shorting its terminals) until a safe low speed is reached, thus avoiding high voltage generation. The IRS26310DJPbF continuously senses the DC Bus through an external resistor divider and, if a critical voltage is reached, the IRS26310DJPbF successfully brakes the motor by shorting the terminal through low-side switches. A generic HVIC three-phase gate driver would require an added external cicuit to perform the same function as • • Increased Reliability Input filters have been re-designed to avoid small pulse commands reaching the gates of the switches in the inverter. This is one of the sources of problems in the field and usually it is difficult to detect. The typical effect is that sometimes inverters return from the field damaged with one destroyed leg without an apparent root cause. The IRS26310DJPbF embeds filters that solve this issue. The IRS26310DJPbF from International Rectifier is part of the company’s latest family of gate drivers designed to be the most rugged in the market for hard switching environments such as motor control circuits. A typical problem in voltage source inverters with inductive loads (as in the motor control domain) is that the hard switching generates negative voltage spikes whose amplitude and duration depend on the switches and on the layout of the application PCB. Each of these spikes occurs at PWM frequency, so in some operating conditions, they can occur 16000 times per second. In the IRS26310DJPbF datasheet the Safe Operating Area for this HVIC under these conditions is specified. +VBUS LD2 HO VBUS Q2 Control IC VS Undershoot LS2 VS To Load LD1 COM LO Reduced component count because the high-voltage clamping diodes used in other solutions are no longer necessary; Fewer field returns because the robust IR HVIC does not fail in an unpredictable manner unlike other solutions In addition to improved filtering techniques, the IRS26310DJPbF also guarantees outstanding matching in propagation time on all channels as well as dead-time automatically inserted when external dead-time is lower than a minimum safe limit. Cost-effectiveness While including all features in the design of the new rugged family of motion gate drivers, International Rectifier considered the overall system cost requirements of its customers. Therefore, the IRS26310DJPbF includes many features that are required in modern applications while keeping external component count at minimum. With fewer components and field returns, the overall system cost is lower. Advanced Input Filtering in IRS26321DJ EXAMPLE 1 Safety regulations enforced by law require that every appliance must meet precise international rules. Every appliance must include safety protection circuits either in hardware or in software that avoid hazards to the end user in case of failure of any of the components in the machine. By law, every circuit that implements a protective function must be certified by an internationally recognized institute. IRS26310DJPbF. This function is mandatory because it is required for safety purposes. The IRS26310DJPbF also embeds all other important protection that are used for safety reasons: anti-shoot through, over-current protection, under-voltage lockout and thermal shutdown input. EXAMPLE 2 Greater Safety tFIL,IN IN IN OUT tFIL,IN OUT tFIL,IN IN Small pulses to the gate of the switches may cause inverter damage IN OUT tFIL,IN OUT VS -COM COMPETITOR’S HVIC IRS26310DJPbF HVIC Q1 LS1 -VS Load Return Tolerant to negative transient voltage t MT TON, TOFF matching time (on all six channels) 50ns Max MDT DT matching (HIN ->LO & LO->HIN on all channels) 60ns Max PM Pulse width distortion 75ns Max Outstanding deadtime and delay matching in IRS2631DJ along with low pulse width distortion IRS26310DJPBF – High-Voltage 3-Phase Gate Driver IC with DC Bus Over-Voltage Protection HVIC / MOTOR CONTROL IRS26310D typical application connection IRS26310DJPbF DCBUS + High-Voltage 3-Phase Gate Driver IC with DC Bus Over-Voltage Protection THE POWER MANAGEMENT LEADER Input Voltage To Load DCBUS Sense – DCBUSSense IRS26310DJPbF VCC Summary Typical Connection Diagram Topology 3-Phase VOFFSET ≤ 600V VOUT 12V - 20V IO+ & IO- (typical) 200mA & 350mA tON & tOFF (typical) 530ns & 530ns Deadtime (typical) 290ns Package 44-lead PLCC IRS26310DJPbF Features •Drives up to six IGBT/MOSFET power devices Control Inputs, EN •Gate drive supplies up to 20 V per channel •Integrated bootstrap functionality •DC bus sensing with over-voltage protection IRS26310D Functional Block Diagram Schmitt-Trigger Inputs, Noise Filter and Shoot-through Protection VSS DC+ bus •Over-current protection DC Bus Sense Comparator Input and Filter •Over-temperature shutdown input •Advanced input filter DCbusSense Logic VCC 600V 3-Phase Gate Drive IC with UVLO Protection High-Side Input (x3) •Integrated deadtime protection •Shoot-through (cross-conduction) protection •Under-voltage lockout for VCC and VBS HV Well •Enable/disable input and fault reporting VS: High-Side Power Supply (x3) Low-Side Input (x3) •Adjustable fault clear timing High-Side Output (x3) FAULT/EN Logic HV Level Shifters VS: High-Side Return (x3) •Separate logic and power grounds To High-Side Power Switches (x3) ITRIP Delay Low-Side Output (x3) To Low-Side Power Switches (x3) The IRS26310DJPbF from International Rectifier is a high-voltage, high speed power MOSFET and IGBT driver with three independent high- and low-side referenced output channels for three-phase applications. The bootstrap diode functionality has been integrated into this device to reduce the component count and PCB size. The new device has been designed for three-phase inverters and is well suited to the requirements of PM motors in washers as it enables high torque at low speed (during washing) and reaches high speed with low torque demand (during spinning). This highly accurate torque and speed control delivers an efficient washing cycle while reducing the motor flux to enable a high spinning speed that helps deliver a more efficient drying function in compliance with safety regulations. •-40˚C to 125˚C operating range •RoHS compliant Drum Torque 30Nm Typical Applictions •Permanent magnet motor drives for appliances General Purpose Comparator Input & Filter For more information, call +(33) 1 64 86 49 53 or +49 6102 884 311 or visit us at www.irf.com Furthermore, government regulations are becoming more and more stringent in terms of efficiency and safety. In the near future, a new energy labeling scheme may be introduced in Europe – and the only way to achieve the highest class label will be to equip the washer with a three-phase permanent magnet (PM) motor. •Matched propagation delays for all channels LV Drive Stage IC detects overcurrent and performs shutdown Modern washer manufacturers require state-of-the-art electronic components to deliver more sophisticated features to the end user. The aim is to create a machine that can wash almost all types of fabric with minimum energy, in less time and using less detergent than previous models – without increasing the overall system cost. •Industrial drives •Micro inverter drives 10207FS 5Nm Wash cycle: High torque low speed COM VSS •Tolerant to negative transient voltage •Designed for use with bootstrap power supplies HV Drive Stage RCIN •3.3 V input logic compatible Higher Efficiency Two extreme point control Field weakening operation (Reduce flux to keep voltage from saturation) Spin: Low torque high speed 1800rpm Speed For more information, call +(33) 1 64 86 49 53 or +49 6102 884 311 or visit us at www.irf.com 10207FS