Intelligent power module AOS AIP3P15A060Q4N with trench shielded planar gate IGBTs and UVLO protection
AIP3D15A060Q4(N) / AIP3P15A060Q4(N) Intelligent Power Module
Product Overview
The AIP3D15A060Q4(N) and AIP3P15A060Q4(N) are intelligent power modules designed for 3-phase inverter applications. These modules feature Trench Shielded Planar Gate IGBTs with a 600V-15A rating and offer optional built-in PFC diodes for the AIP3P15A060Q4(N) variant. They incorporate integrated bootstrap diodes with current-limiting resistors, and provide comprehensive protection features including control supply under-voltage lockout (UVLO), controllable over-temperature protection (OT), temperature monitoring (VOT), short-circuit current protection (CSC), and a controllable fault out signal (VCF). The modules also include an enable input functionality for shutting down low-side IGBTs and a 3/5V line Schmitt trigger input interface. These modules are suitable for AC 100-240Vrms class low power motor drives, including air conditioners, washing machines, compressors, and fan motors.
Product Attributes
- Brand: AOS (Alpha & Omega Semiconductor)
- Certifications: UL Recognized (UL 1775 File E345245)
- Compliance: AOS Green Products (Reduced Halogens, RoHS compliant)
Technical Specifications
| Model | External View Size | Voltage Rating | Current Rating (Continuous) | Package Type | Temperature Range | PFC Diode |
|---|---|---|---|---|---|---|
| AIP3D15A060Q4(N) | 38 x 24 x 3.6 mm | 600V | 15A | IPM-3 / IPM-3A | -40C to 150C | No |
| AIP3P15A060Q4(N) | 38 x 24 x 3.6 mm | 600V | 15A | IPM-3B / IPM-3C | -40C to 150C | Yes |
| Parameter | Conditions | Min. | Typ. | Max. | Unit |
|---|---|---|---|---|---|
| Inverter Ratings | |||||
| VPN Supply Voltage | Applied between P - NU,NV,NW | 0 | - | 400 | V |
| VPN(surge) Supply Voltage | Applied between P - NU,NV,NW | - | - | 500 | V |
| VCES Collector-Emitter Voltage | - | - | - | 600 | V |
| IC Output Phase Current | TC=25C, TJ<150C | - | - | 15 | A |
| IC Output Phase Current | TC=80C, TJ<150C | - | - | 10 | A |
| IPK Output Peak Phase Current | TC=25C, less than 1ms pulse width | - | - | 30 | A |
| tSC Short Circuit Withstand Time | VPN400V, TJ=150C, VDD=15V | - | - | 5 | s |
| PC Collector Dissipation | TC=25C, per chip | - | - | 33 | W |
| TJ Operating Junction Temperature | - | -40 | - | 150 | C |
| PFC Diode Ratings (AIP3P15A060Q4) | |||||
| VRRM Repetitive peak Reverse Voltage | Applied between P2 P3 | - | - | 650 | V |
| IF Output Phase Current | TC=25C, TJ<150C | - | - | 30 | A |
| IF Output Phase Current | TC=100C, TJ<150C | - | - | 15 | A |
| Control (Protection) Ratings | |||||
| VDD Control Supply Voltage | Applied between VDD-COM | - | - | 25 | V |
| VDB High-Side Control Bias Voltage | Applied between VB(U)-U, VB(V)-V, VB(W)-W | - | - | 25 | V |
| VIN Input Voltage | Applied between IN(UH)...IN(WL) COM | - | - | VDD+0.3 | V |
| VCF Fault Output Supply Voltage | Applied between VCF-COM | - | - | COM+5.5 | V |
| ICF Fault Output Current | Sink current at VCF terminal | - | - | 1 | mA |
| VSC Current Sensing Input Voltage | Applied between CSC-COM | - | - | COM+5.5 | V |
| VOT Temperature Output | Applied between VOT-COM | - | - | COM+5.5 | V |
| Total System Ratings | |||||
| VPN(PROT) Self Protection Supply Voltage Limit | VDD=13.5-16.5V, Inverter part TJ=150C, Non-repetitive, less than 2s | - | - | 400 | V |
| TC Module Case Operation Temperature | Measurement point of TC is provided in Figure 1 | -30 | - | 125 | C |
| TSTG Storage Temperature | - | -40 | - | 150 | C |
| VISO Isolation Voltage | 60Hz, sinusoidal, AC 1min, between connected all pins and heat sink plate | - | - | 2000 | Vrms |
| Thermal Resistance | |||||
| Rth(j-c)Q Junction to Case Thermal Resistance | Inverter IGBT (per 1/6 module) | - | - | 3.8 | K/W |
| Rth(j-c)F Junction to Case Thermal Resistance | Inverter FWD (per 1/6 module) | - | - | 4.97 | K/W |
| Rth(j-c)D Junction to Case Thermal Resistance | PFC Diode (AIP3P15A060Q4) | - | - | 2.58 | K/W |
| Electrical Characteristics (TJ = 25C, unless otherwise specified) | |||||
| VCE(SAT) Collector-Emitter Saturation Voltage | VDD=VDB=15V, VIN=5V, IC=7.5A, TJ=25C | - | 1.40 | 1.90 | V |
| VCE(SAT) Collector-Emitter Saturation Voltage | VDD=VDB=15V, VIN=5V, IC=7.5A, TJ=125C | - | 1.60 | - | V |
| VF FWD Forward Voltage | VIN=0, IF=7.5A, TJ=25C | - | 1.55 | 2.00 | V |
| tON Switching Times | VPN=300V, VDD=VDB=15V, IC=10A, TJ=25C, VIN=0V 5V Inductive load | - | 0.40 | 1.20 | s |
| tOFF Switching Times | VPN=300V, VDD=VDB=15V, IC=10A, TJ=25C, VIN=0V 5V Inductive load | - | 1.25 | 1.75 | s |
| VF FWD Forward Voltage | IF=20A, TJ=25C (PFC Diode) | - | 1.45 | - | V |
| Trr Reverse recovery time | TJ=25C, VR=400V, IF=20A, dIF/dt=320A/us (PFC Diode) | - | 90 | - | ns |
| IQDD Quiescent VDD Supply Current | VDD=15V, IN(UH,VH,WH,UL,VL,WL) =0V | - | 2.1 | - | mA |
| VSC(ref) Short-Circuit Trip Level | VDD=15V (2) | 0.455 | 0.48 | 0.505 | V |
| UVDT Supply Circuit Under-Voltage Protection Trip Level | - | 10.3 | 11.4 | 12.5 | V |
| UVDR Reset Level | - | 10.8 | 11.9 | 13.0 | V |
| UVDBT Trip Level | - | 8.5 | 9.5 | 10.5 | V |
| UVDBR Reset Level | - | 9.5 | 10.5 | 11.5 | V |
| VOT Temperature Output | LVIC Temperature=90C (3) | 2.67 | 2.77 | 2.86 | V |
| VOT Temperature Output | LVIC Temperature=25C (3) | 0.8 | 1.05 | 1.3 | V |
| OTT Over-Temperature Protection | OT Pin connected to VDD or open (4) | 100 | 120 | 140 | C |
| VCFH Fault Output Voltage | VSC=0V, VCF Circuit: 10k to 5V pull-up | 4.9 | - | - | V |
| VCFL Fault Output Voltage | VSC=1V, VCF Circuit: 10k to 5V pull-up | - | - | 0.5 | V |
| Vth(on) ON Threshold Voltage | Applied between IN(UH)...IN(WL)-COM | 2.3 | 2.6 | - | V |
| Vth(off) OFF Threshold Voltage | Applied between IN(UH)...IN(WL)-COM | 0.8 | 1.2 | - | V |
| VF(BSD) Bootstrap Diode Forward Voltage | IF=10mA (6) | 0.5 | 1.0 | 1.5 | V |
| RBSD Built-in Limiting Resistance | Included in Bootstrap Diode | 80 | 100 | 120 | |
| Recommended Operation Conditions | |||||
| VPN Supply Voltage | Applied between P-NU, NV, NW | 0 | - | 400 | V |
| VDD Control Supply Voltage | Applied between VDD-COM | 13.5 | 15.0 | 16.5 | V |
| VDB High-Side Bias Voltage | Applied between VB(U)-U, VB(V)-V, VB(W)-W | 13.5 | 15.0 | 18.5 | V |
| tded Arm Shoot-Through Blocking Time | For each input signal | 1.5 | - | - | s |
| fPWM PWM Input Frequency | -40C < TJ < 150C | - | - | 20 | kHz |
| PWIN(ON) Minimum Input Pulse Width | (8) | 0.5 | - | - | s |
| PWIN(OFF) Minimum Input Pulse Width | (8) | 0.5 | - | - | s |
Notes:
(1) For the measurement point of case temperature (TC), please refer to Figure 1.
(2) Short-circuit protection works only for low sides.
(3) When temperature exceeds the protective level that the user defined, the controller (MCU) should stop the IPM. Temperature of LVIC vs. VOT output characteristics is described in Figure 3.
(4) When the LVIC temperature exceeds OT Trip temperature level (OTT), OT protection is triggered and fault outputs. OT Trip level can be adjusted by pull-down resistors values.
(5) Fault signal (FO) outputs when SC, UV or OT protection is triggered. FO pulse width is different for each protection mode.
(6) The characteristics of bootstrap diodes are shown in Figure 2.
(7) Plain washers (ISO 7089-7094) are recommended.
(8) IPM may not respond if the input pulse width is less than PWIN(ON), PWIN(OFF).
2411261605_AOS-AIP3P15A060Q4N_C20266166.pdf
Our mission is to offer "High Quality" & "Good Service" & "Fast Delivery" to help our clients to gain more profits.
