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| PS21765 Powerex, Inc., 173 Pavilion Lane, Youngwood, Pennsylvania 15697 (724) 925-7272 IntellimodTM Module Dual-In-Line Intelligent Power Module 20 Amperes/600 Volts G E D F D F D 12 11 10 F D F D 654 F D L M DETAIL "C" TERMINAL CODE 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 VUFS (UPG) VUFB VP1 (COM) UP VVFS (VPG) VVFB VP1 (COM) VP VWFS (WPG) VWFB VP1 (COM) WP (UNG) 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 VNO UN VN WN FO CFO CIN VNC VN1 (WNG) (VNG) NW NV NU W V U P NC 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 987 321 29 30 DETAIL "A" DETAIL "B" J K N P S T B H QR P HEATSINK U SIDE V 31 32 33 34 35 36 37 38 Z Z AA AB AB C A AB AB AC AD W X AG V AL AM Y DETAIL "D" W L AQ K AE AF AN AP DETAIL "A" AR DETAIL "B" AK W AU AS AG AT DETAIL "C" AH T AH T DETAIL "D" W AJ Description: DIP-IPMs are intelligent power modules that integrate power devices, drivers, and protection circuitry in an ultra compact dual-in-line transfer-mold package for use in driving small three phase motors. Use of 5th generation IGBTs, DIP packaging, and application specific HVICs allow the designer to reduce inverter size and overall design time. Features: Compact Packages Single Power Supply Integrated HVICs Direct Connection to CPU Reduced Rth Applications: Refrigerators Air Conditioners Small Servo Motors Small Motor Control Ordering Information: PS21765 is a 600V, 20 Ampere short pin DIP Intelligent Power Module. Outline Drawing and Circuit Diagram Dimensions A B C D E F G H J K L M N P Q R S T U V W Rev. 07/07 Inches 2.07 1.22 1.810.008 0.070.008 0.77 0.170.008 0.080.019 0.61 0.09 Dia. x 0.1 Depth 0.13 Dia. 0.08 0.22 1.410.02 0.69 0.216 0.14 0.503 0.09 0.53 0.06 0.04 Millimeters 52.5 31.0 46.00.2 1.780.2 19.58 4.320.2 2.040.3 15.5 2.2 Dia. x 2.6 Depth 3.3 Dia. 2.0 5.6 35.90.5 17.7 5.5 3.5 12.78 2.2 13.5 1.5 1.0 Dimensions X Y Z AA AB AC AD AE AF AG AH AJ AK AL AM AN AP AQ AR AS AT AU Inches 0.06 0.12 0.130.019 0.260.019 0.30.019 0.150.019 0.13 0.5 0.28 0.02 0.067 0.11 0.51 0.114 0.063 0.068 0.03 0.14 Dia. 0.145 Dia. 0 ~ 5 0.078 0.023 Millimeters 1.55 3.10.1 3.30.3 6.60.3 7.620.3 3.950.3 3.25 12.7 7.1 0.5 1.7 2.8 13.0 2.9 1.6 1.75 0.75 3.5 Dia. 3.7 Dia. 1.96 0.6 Powerex, Inc., 173 Pavilion Lane, Youngwood, Pennsylvania 15697 (724) 925-7272 PS21765 IntellimodTM Module Dual-In-Line Intelligent Power Module 20 Amperes/600 Volts Absolute Maximum Ratings, Tj=25Cunlessotherwisespecified Characteristics Power Device Junction Temperature* Storage Temperature Case Operating Temperature (Note 1) Mounting Torque, M3 Mounting Screws Module Weight (Typical) Heatsink Flatness (Note 2) Self-protection Supply Voltage Limit (Short Circuit Protection Capability)** Isolation Voltage, AC 1 minute, 60Hz Sinusoidal, Connection Pins to Heatsink Plate *The maximum junction temperature rating of the power chips integrated within the DIP-IPM is 150C (@TC 100C). **VD = 13.5 ~ 16.5V, Inverter Part, Tj = 125C, Non-repetitive, Less than 2s Symbol Tj Tstg TC -- -- -- VCC(prot.) VISO PS21765 -20 to 150 -40 to 125 -20 to 100 8.7 20 -50 to 100 400 2500 Units C C C in-lb Grams m Volts Volts IGBT Inverter Sector Collector-Emitter Voltage Each Collector Current, (TC = 25C) Each Peak Collector Current, (TC = 25C, Less than 1ms) Supply Voltage (Applied between P-NU, NV, NW) Supply Voltage, Surge (Applied between P-NU, NV, NW) Collector Dissipation (TC = 25C, per 1 Chip) VCES IC ICP VCC VCC(surge) PC 600 20 40 450 500 76.9 Volts Amperes Amperes Volts Volts Watts Control Sector Supply Voltage (Applied between VP1-VNC, VN1-VNC) Supply Voltage (Applied between VUFB-UUFS, VVFB-VVFS, VWFB-WWFS) Input Voltage (Applied between UP, VP, WP-VNC, UN, VN, WN-VNC) Fault Output Supply Voltage (Applied between FO-VNC) Fault Output Current (Sink Current at FO Terminal) Current Sensing Input Voltage (Applied between CIN-VNC) VD VDB VIN VFO IFO VSC 20 20 -0.5 ~ VD+0.5 -0.5 ~ VD+0.5 1 -0.5 ~ VD+0.5 Volts Volts Volts Volts mA Volts Note 1 - TC Measure Point CONTROL TERMINALS Note 2 - Flatness Measurement Position 18mm 18mm GROOVE + IGBT CHIP POSITION FWDi CHIP POSITION - MEASUREMENT POSITION 3.0mm TC POINT HEATSINK SIDE HEATSINK SIDE - + HEATSINK SIDE POWER TERMINALS Rev. 07/07 Powerex, Inc., 173 Pavilion Lane, Youngwood, Pennsylvania 15697 (724) 925-7272 PS21765 IntellimodTM Module Dual-In-Line Intelligent Power Module 20 Amperes/600 Volts Electrical and Mechanical Characteristics, Tj=25Cunlessotherwisespecified Characteristics Symbol TestConditions Min. Typ. Max. Units IGBT Inverter Sector Collector-Emitter Saturation Voltage Diode Forward Voltage Inductive Load Switching Times VCE(sat) VEC ton trr tC(on) toff tC(off) Collector Cutoff Current ICES VCE = VCES, Tj = 25C VCE = VCES, Tj = 125C VCC = 300V, VD = VDB = 15V, IC = 20A, Tj = 125C, VIN = 0 - 5V, Inductive Load VD = VDB = 15V, IC = 20A, VIN = 5V, Tj = 25C VD = VDB = 15V, IC = 20A, VIN = 5V, Tj = 125C -IC = 20A, VIN = 0V -- -- -- 0.70 -- -- -- -- -- -- 1.60 1.70 1.50 1.30 0.30 0.50 1.30 0.40 -- -- 2.10 2.20 2.00 1.90 -- 0.80 1.90 0.60 1.0 10 Volts Volts Volts S S S S S mA mA Control Sector Circuit Current VD = VDB = 15V VIN = 0V Fault Output Voltage Short Circuit Trip Level* Input Current Supply Circuit Under-voltage Protection VFOH VFOL VSC(ref) IIN UVDBt UVDBr UVDt UVDr Fault Output Pulse Width** ON Threshold Voltage OFF Threshold Voltage ON/OFF Threshold Hysteresis Voltage tFO Vth(on) Vth(off) Vth(hys) ID VIN = 5V Total of VP1-VNC, VN1-VNC VUFB-U, VVFB-V, VWFB-W Total of VP1-VNC, VN1-VNC VUFB-VUFS, VVFB-VVFS, VWFB-VWFS VSC = 0V, FO Terminal Pull-up to 5V by 10k VSC = 1V, IFO = 1mA VD = 15V VIN = 5V Trip Level, Tj 125C Reset Level, Tj 125C Trip Level, Tj 125C Reset Level, Tj 125C CFO = 22nF Applied between UP, VP, WP-VNC, UN, VN, WN-VNC -- -- -- -- 4.9 -- 0.43 1.0 10.0 10.5 10.3 10.8 1.0 -- 0.8 0.5 -- -- -- -- -- -- 0.48 1.5 -- -- -- -- 1.8 2.3 1.4 0.9 7.00 0.55 7.00 0.55 -- 0.95 0.53 2.0 12.0 12.5 12.5 13.0 -- 2.6 -- -- mA mA mA mA Volts Volts Volts mA Volts Volts Volts Volts ms Volts Volts Volts * Short Circuit protection is only for the lower-arms. Please select the external shunt resistance such that the SC trip level is less than 1.7 times the current rating. **Fault signal is output when the low-arms short circuit or control supply under-voltage protective function works. The fault output pulse-width, tFO, depends on the capacitance of CFO according to the following approximate equation: CFO = 12.2 x 10-6 x tFO [F]. Rev. 07/07 Powerex, Inc., 173 Pavilion Lane, Youngwood, Pennsylvania 15697 (724) 925-7272 PS21765 IntellimodTM Module Dual-In-Line Intelligent Power Module 20 Amperes/600 Volts Thermal Characteristics Characteristic Junction to Case Symbol Rth(j-c)Q Rth(j-c)D Condition Inverter IGBT (Per 1/6 Module) Inverter FWDi (Per 1/6 Module) Min. -- -- Typ. -- -- Max. 1.3 3.0 Units C/Watt C/Watt Recommended Conditions for Use Characteristic Supply Voltage Control Supply Voltage VD VDB Control Supply Variation Arm Shoot-through Blocking Time PWM Input Frequency Allowable Minimum Input Pulse Width PWIN(on)** PWIN(off)*** Below Rated Current Between Rated Current and 1.7 Times Rated Current VNC Voltage Variation Junction Temperature VNC Tj fPWM dVD, dVDB tDEAD Symbol VCC Condition Applied between P-NU, NV, NW Applied between VP1-VNC, VN1-VNC Applied between VUFB-VUFS, VVFB-VVFS, VWFB-VWFS -- For Each Input Signal, TC 100C TC 100C, Tj 125C -- 200V VCC 350V, 13.5V VD 16.5V, 13.0V VDB 18.5V, -20C TC 100C, N-line Wiring Inductance < 10nH Between VNC-NU, NV, NW, (Including Surge) -- -20 -- 125 C *The allowable RMS current value depends on the actual application conditions. **The input signal with ON pulse less than PWIN(on) may make no response. ***DIP-IPM may make a delayed response (less than about 2sec) or no response for the input signal with OFF pulse width less than PWIN(off). Refer to About Delayed Response Against Shorter Input OFF Signal than PWIN(off (P-side Only) and Recommended Wiring Around the Shunt Resistor for detals about N-line inductance. Min. 0 13.5 13.0 -1 2.0 -- 0.3 1.4 2.5 Typ. 300 15.0 15.0 -- -- -- -- -- -- Value 400 16.5 18.5 1 -- 20 -- -- -- Units Volts Volts Volts V/s s kHz s s s -5.0 -- 5.0 Volts Delayed Response Against Shorter Input OFF Signal than PWIN(off) (P-side Only) P-SIDE CONTROL INPUT INTERNAL IGBT GATE t2 OUTPUT CURRENT IC t1 Solid Line - OFF Pulse Width > PWIN(off): Turn ON time t1. Dotted Line - OFF Pulse Width < PWIN(off): Turn ON time t2. Rev. 07/07 Powerex, Inc., 173 Pavilion Lane, Youngwood, Pennsylvania 15697 (724) 925-7272 PS21765 IntellimodTM Module Dual-In-Line Intelligent Power Module 20 Amperes/600 Volts Short Circuit Protection (Lower-arms Only with External Shunt Resistor and RC Filter) A. Short Circuit Protection (Lower-arms Only with External Shunt Resistor and RC Filter) LOWER-ARMS CONTROL INPUT PROTECTION CIRCUIT STATE INTERNAL IGBT GATE A2 SC A4 A8 SC REFERENCE VOLTAGE SENSE VOLTAGE OF THE SHUNT RESISTOR FAULT OUTPUT FO A5 CR CIRCUIT TIME CONSTANT DELAY A1: A2: A3: A4: A5: A6: A7: A8: Normal operation - IGBT ON and carrying current. Short Circuit current detection (SC trigger). IGBT gate hard interruption. IGBT turns OFF. FO timer operation starts. The pulse width of the FO signal is set by the external capacitor CFO. Input "L" - IGBT OFF. Input "H" IGBT OFF state in spite of input "H". A6 SET A7 RESET A3 A1 OUTPUT CURRENT IC Under-Voltage Protection (Lower-arm, UVD) B. Under-Voltage Protection (Lower-arm, UVD) CONTROL INPUT PROTECTION CIRCUIT STATE SET RESET UVDr RESET CONTROL SUPPLY VOLTAGE VD B1 UVDt B3 B4 B6 B2 OUTPUT CURRENT IC FAULT OUTPUT FO B7 B5 B1: Control supply voltage risinge - After the voltage level reaches UVDr, the drive circuit begins to work at the rising edge of the next input signal. B2 : Normal operation - IGBT ON and conducting current. B3: B4: B5: B6: B7: Under-voltage trip (UVDt). IGBT turns OFF regardless of the control input level. FO operation starts. Under-voltage reset (UVDr). Normal operation - IGBT ON and conducting current. Rev. 07/07 Powerex, Inc., 173 Pavilion Lane, Youngwood, Pennsylvania 15697 (724) 925-7272 PS21765 IntellimodTM Module Dual-In-Line Intelligent Power Module 20 Amperes/600 Volts Under-Voltage Protection (Upper-arm, UVDB) C. Under-Voltage Protection (Upper-arm, UVDB) CONTROL INPUT PROTECTION CIRCUIT STATE RESET UVDBr SET RESET CONTROL SUPPLY VOLTAGE VDB C1 UVDt C4 C6 C2 OUTPUT CURRENT IC C3 C5 C7 FAULT OUTPUT FO HIGH LEVEL (NO FAULT OUTPUT) C1: Control supply voltage rises - After the voltage level reaches UVDBr, the drive circuit begins to work at the rising edge of the next input signal. C2: Protection circuit state reset - IGBT ON and conducting current. C3: Normal operation - IGBT ON and conducting current. C4: Under-voltage trip (UVDBt). C5: IGBT OFF regardless of the control input level, but there is no FO signal output. C6: Under-voltage reset (UVDr). C7: Normal operation - IGBT ON and conducting current. Recommended MCU I/O Interface Circuit 5V LINE DIP-IPM 10k UP, VP, WP, UN, VN, WN MCU FO 2.5k (MIN) VNC (LOGIC) NOTE: RC coupling at each input (parts shown dotted) may change depending on the PWM control scheme used in the application and the wiring impedance of the printed circuit board. The DIP-IPM input signal section integrates a 2.5k (min) pull-down resistor. Therefore, when using an external filtering resistor, care must be taken to satisfy the turn-on threshold voltage requirement. Recommended Wiring Around the Shunt Resistor Wiring inductance should be less than 10nH. (Equivalent to the inductance of a copper pattern with length = 17mm, width = 3mm, and thickness = 100 m.) DIP-IPM NU VNO VNC NV NW Shunt Resistors Please make the connection of shunt resistor close to VNC and VNO terminals. Rev. 07/07 Powerex, Inc., 173 Pavilion Lane, Youngwood, Pennsylvania 15697 (724) 925-7272 PS21765 IntellimodTM Module Dual-In-Line Intelligent Power Module 20 Amperes/600 Volts Application Circuit +3.3 to +5V +15V C1 R1 D1 R2 C5 C1 R1 D1 R2 C2 C5 C1 R1 D1 R2 C5 C2 C2 + C2 DZ1 VUFS VUFB LEVEL SHIFT VP1 UP VVFS + C2 DZ1 VP1 VP VWFS + C2 DZ1 VP1 WP +VCC HVIC INPUT CONDITION VWFB LEVEL SHIFT GATE DRIVE UV PROT. +VCC HVIC INPUT CONDITION VVFB LEVEL SHIFT GATE DRIVE UV PROT. +VCC HVIC GATE DRIVE UV PROT. INPUT CONDITION AC LINE P C7 C6 + U CONTROLLER MOTOR V R3 R2 VNO R2 R2 UN VN WN FO CFO C5 C5 C5 C4 C3 C2 CIN VNC VN1 W RSHUNT INPUT SIGNAL CONDITIONING GATE DRIVE N(U) TO CONTROLLER OVER CURRENT PROTECTION FAULT LOGIC RSHUNT N(V) + UV PROT. +VCC LVIC RSHUNT N(W) This symbol indicates connection to ground plane. Component Selection: Dsgn. D1 DZ1 C1 C2 C3 C4 C5 C6 C7 RSHUNT R1 R2 R3 Typ. Value 1A, 600V 16V, 0.25W 10-100uF, 50V 0.22-2.0uF, 50V 10-100uF, 50V 22nF, 50V 100pF, 50V 200-2000uF, 450V 0.1-0.22uF, 450V 5-100mohm 10 ohm 330 ohm 10k ohm Description Boot strap supply diode - Ultra fast recovery Control and boot strap supply over voltage suppression Boot strap supply reservoir - Electrolytic, long life, low Impedance, 105C (Note 5) Local decoupling/High frequency noise filters - Multilayer ceramic (Note 5) Control power supply filter - Electrolytic, long life, low Impedance, 105C (Note 5) Fault output timer capacitor Optional Input signal noise filter - Multilayer ceramic (Note 1) Main DC bus filter capacitor - Electrolytic, long life, high ripple current, 105C Surge voltage suppression capacitor - Polyester/Polypropylene film (Note 8) Current sensing resistor - Non-inductive, temperature stable, tight tolerance (Note 9) Boot strap supply inrush limiting resistor Optional control input noise filter (Note 1, Note 2) Fault output signal pull-up resistor (Note 3) Notes: 1) Input drive is active-high type. There is a 2.5k (min.) pull-down resistor integrated in the IC input circuit. To prevent malfunction, the wiring of each input should be as short as possible. When using RC coupling circuit, make sure the input signal level meets the turn-on and turn-off threshold voltage. See application notes for details. 2) Internal HVIC provides high voltage level shifting allowing direct connection of all six driving signals to the controller. 3) FO output is an open collector type. Pull up resistor (R3) should be adjusted to current sink capability of the controller. 4) To prevent input signal oscillations, minimize wire length to controller (~2cm). Additional RC filtering (C5 etc.) may be required. If filtering is added be careful to maintain proper dead time and voltage levels. See application notes for details. 5) All capacitors should be mounted as close to the terminals as possible. (C1: good temperature, frequency characteristic electrolytic type, and C2, C3: good temperature, frequency and DC bias characteristic ceramic type are recommended.) 6) Shows short circuit protection disabled. See application notes for use of short circuit protection. 7) Local decoupling frequency filter capacitors must be connected as close as possible to the module's pins. 8) The length of the DC link wiring between C5, C6, the DIP's P terminal and the shunt must be minimized to prevent excessive transient voltages. In particular C6 should be mounted as close to the DIP as possible. 9) Use high quality, tight tolerance current sensing resistor. Connect resistor as close as possible to the DIP's N terminal. Be careful to check for proper power rating. See application notes for calculation of resistance value. 10) Inserting a Zener diode (24V/1W) between each pair of control supply terminals to prevent surge destruction is recommended. Rev. 07/07 7 Powerex, Inc., 173 Pavilion Lane, Youngwood, Pennsylvania 15697 (724) 925-7272 PS21765 IntellimodTM Module Dual-In-Line Intelligent Power Module 20 Amperes/600 Volts COLLECTOR-EMITTER SATURATION VOLTAGE CHARACTERISTICS (TYPICAL - INVERTER PART) FREE-WHEEL DIODE FORWARD CHARACTERISTICS (TYPICAL - INVERTER PART) REVERSE RECOVERY CURRENT, Irr, (AMPERES) REVERSE RECOVERY CHARACTERISTICS (TYPICAL - INVERTER PART N-SIDE) 3.0 COLLECTOR-EMITTER SATURATION VOLTAGE, VCE(sat), (VOLTS) 50 COLLECTOR CURRENT, -IC, (AMPERES) 2.5 2.0 1.5 1.0 0.5 0 VD = 15V Tj = 25C Tj = 125C 40 30 20 10 0 VD = 15V Tj = 25C Tj = 125C 102 VCC = 300V VCIN = 0 5V VD = 15V Tj = 25C Tj = 125C INDUCTIVE LOAD 101 0 10 20 30 40 50 0 0.5 1.0 1.5 2.0 2.5 100 100 101 COLLECTOR CURRENT, -IC, (AMPERES) 102 COLLECTOR-CURRENT, IC, (AMPERES) EMITTER-COLLECTOR VOLTAGE, VEC, (VOLTS) REVERSE RECOVERY CHARACTERISTICS (TYPICAL - INVERTER PART N-SIDE) REVERSE RECOVERY CURRENT, Irr, (AMPERES) REVERSE RECOVERY CHARACTERISTICS (TYPICAL - INVERTER PART P-SIDE) REVERSE RECOVERY CHARACTERISTICS (TYPICAL - INVERTER PART P-SIDE) 103 REVERSE RECOVERY TIME, trr, (ns) 102 REVERSE RECOVERY TIME, trr, (ns) VCC = 300V VCIN = 0 5V VD = VDB = 15V Tj = 25C Tj = 125C INDUCTIVE LOAD 103 102 VCC = 300V VCIN = 0 5V VD = 15V Tj = 25C Tj = 125C INDUCTIVE LOAD 101 102 VCC = 300V VCIN = 0 5V VD = VDB = 15V Tj = 25C Tj = 125C INDUCTIVE LOAD 101 100 101 COLLECTOR CURRENT, -IC, (AMPERES) 102 100 100 101 COLLECTOR CURRENT, -IC, (AMPERES) 102 101 100 101 COLLECTOR CURRENT, -IC, (AMPERES) 102 SWITCHING LOSS (ON) VS. COLLECTOR CURRENT (TYPICAL - INVERTER PART N-SIDE) SWITCHING LOSS (OFF) VS. COLLECTOR CURRENT (TYPICAL - INVERTER PART N-SIDE) SWITCHING LOSS (ON) VS. COLLECTOR CURRENT (TYPICAL - INVERTER PART P-SIDE) 101 SWITCHING LOSS, PSW(off), (mJ/PULSE) SWITCHING LOSS, PSW(on), (mJ/PULSE) 101 100 100 SWITCHING LOSS, PSW(on), (mJ/PULSE) VCC = 300V VCIN = 0 5V VD = 15V Tj = 25C Tj = 125C INDUCTIVE LOAD 101 100 10-1 VCC = 300V VCIN = 0 5V VD = 15V Tj = 25C Tj = 125C INDUCTIVE LOAD 10-1 10-1 VCC = 300V VCIN = 0 5V VD = VDB = 15V Tj = 25C Tj = 125C INDUCTIVE LOAD 10-2 100 101 COLLECTOR CURRENT, IC, (AMPERES) 102 10-2 100 101 COLLECTOR CURRENT, IC, (AMPERES) 102 10-2 100 101 COLLECTOR CURRENT, IC, (AMPERES) 102 Rev. 07/07 Powerex, Inc., 173 Pavilion Lane, Youngwood, Pennsylvania 15697 (724) 925-7272 PS21765 IntellimodTM Module Dual-In-Line Intelligent Power Module 20 Amperes/600 Volts SWITCHING LOSS (OFF) VS. COLLECTOR CURRENT (TYPICAL - INVERTER PART P-SIDE) SWITCHING TIME (ON) VS. COLLECTOR CURRENT (TYPICAL - INVERTER PART N-SIDE) SWITCHING TIME (OFF) VS. COLLECTOR CURRENT (TYPICAL - INVERTER PART N-SIDE) 101 SWITCHING LOSS, PSW(off), (mJ/PULSE) 104 VCC = 300V VCIN = 0 5V VD = VDB = 15V Tj = 25C Tj = 125C INDUCTIVE LOAD 104 SWITCHING TIME, ton, (ns) 100 103 VCC = 300V VCIN = 0 5V VD = 15V Tj = 25C Tj = 125C INDUCTIVE LOAD SWITCHING TIME, toff, (ns) 103 VCC = 300V VCIN = 0 5V VD = 15V Tj = 25C Tj = 125C INDUCTIVE LOAD 10-1 10-2 100 101 COLLECTOR CURRENT, IC, (AMPERES) 102 102 100 101 COLLECTOR CURRENT, IC, (AMPERES) 102 102 100 101 COLLECTOR CURRENT, IC, (AMPERES) 102 SWITCHING TIME (ON) VS. COLLECTOR CURRENT (TYPICAL - INVERTER PART P-SIDE) SWITCHING TIME (OFF) VS. COLLECTOR CURRENT (TYPICAL - INVERTER PART P-SIDE) SWITCHING TIME (ON) VS. COLLECTOR CURRENT (TYPICAL - INVERTER PART N-SIDE) 104 104 103 103 VCC = 300V VCIN = 0 5V VD = VDB = 15V Tj = 25C Tj = 125C INDUCTIVE LOAD 103 VCC = 300V VCIN = 0 5V VD = VDB = 15V Tj = 25C Tj = 125C INDUCTIVE LOAD SWITCHING TIME, tc(on), (ns) SWITCHING TIME, ton, (ns) SWITCHING TIME, toff, (ns) 102 VCC = 300V VCIN = 0 5V VD = 15V Tj = 25C Tj = 125C INDUCTIVE LOAD 102 100 101 COLLECTOR CURRENT, IC, (AMPERES) 102 102 100 101 COLLECTOR CURRENT, IC, (AMPERES) 102 101 100 101 COLLECTOR CURRENT, IC, (AMPERES) 102 SWITCHING TIME (OFF) VS. COLLECTOR CURRENT (TYPICAL - INVERTER PART N-SIDE) SWITCHING TIME (ON) VS. COLLECTOR CURRENT (TYPICAL - INVERTER PART P-SIDE) SWITCHING TIME (OFF) VS. COLLECTOR CURRENT (TYPICAL - INVERTER PART P-SIDE) 103 103 103 SWITCHING TIME, tc(off), (ns) SWITCHING TIME, tc(on), (ns) 102 VCC = 300V VCIN = 0 5V VD = 15V Tj = 25C Tj = 125C INDUCTIVE LOAD 102 VCC = 300V VCIN = 0 5V VD = VDB = 15V Tj = 25C Tj = 125C INDUCTIVE LOAD SWITCHING TIME, tc(off), (ns) 102 VCC = 300V VCIN = 0 5V VD = VDB = 15V Tj = 25C Tj = 125C INDUCTIVE LOAD 101 100 101 COLLECTOR CURRENT, IC, (AMPERES) 102 101 100 101 COLLECTOR CURRENT, IC, (AMPERES) 102 101 100 101 COLLECTOR CURRENT, IC, (AMPERES) 102 Rev. 07/07 |
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