ICE3A5065P

Datasheet, V1.3, 15 Sep 2004 C o o l S E T ™ -F3 ICE3A(B)0365/0565/1065/1565 ICE3A(B)2065/2565 ICE3A0565Z/2065Z ICE3A(B)2065I/3065I/3565I ICE3A(B)5065I/5565I ICE3A(B)2065P/3065P/3565P ICE3A(B)5065P/5565P Off-Line SMPS Current Mode Controller with integrated 650V Startup Cell/CoolMOS™ Power Management & Supply N e v e r s t o p t h i n k i n g . CoolSET™-F3 Revision History: 2004-09-15 Datasheet Previous Version: Page Subjects (major changes since last revision) For questions on technology, delivery and prices please contact the Infineon Technologies Offices in Germany or the Infineon Technologies Companies and Representatives worldwide: see our webpage at http:// www.infineon.com CoolMOS™, CoolSET™ are trademarks of Infineon Technologies AG. Edition 2004-09-15 Published by Infineon Technologies AG, St.-Martin-Strasse 53, D-81541 München © Infineon Technologies AG 1999. All Rights Reserved. Attention please! The information herein is given to describe certain components and shall not be considered as warranted characteristics. Terms of delivery and rights to technical change reserved. We hereby disclaim any and all warranties, including but not limited to warranties of non-infringement, regarding circuits, descriptions and charts stated herein. Infineon Technologies is an approved CECC manufacturer. Information For further information on technology, delivery terms and conditions and prices please contact your nearest Infineon Technologies Office in Germany or our Infineon Technologies Representatives worldwide (see address list). Warnings Due to technical requirements components may contain dangerous substances. For information on the types in question please contact your nearest Infineon Technologies Office. Infineon Technologies Components may only be used in life-support devices or systems with the express written approval of Infineon Technologies, if a failure of such components can reasonably be expected to cause the failure of that life-support device or system, or to affect the safety or effectiveness of that device or system. Life support devices or systems are intended to be implanted in the human body, or to support and/or maintain and sustain and/or protect human life. If they fail, it is reasonable to assume that the health of the user or other persons may be endangered. CoolSET™-F3 Off-Line SMPS Current Mode Controller with integrated 650V Startup Cell/ CoolMOS™ PG-DIP-7-1 Product Highlights P-DIP-7-1 • Best in class in DIP7, DIP8, TO220, I2Pak packages • Leadfree for DIP7 and DIP8 packages • Active Burst Mode to reach the lowest Standby Power Requirements < 100mW • Protection features (Auto Restart Mode) to increase robustness and safety of the system • Adjustable Blanking Window for high load jumps to increase system reliability • Isolated drain package for TO220/I2PAK • Increased creepage distance for TO220/I2PAK • Wide power class of products for various applications PG-DIP-8-6 P-DIP-8-4, -6 P-TO220-6-46 P-TO220-6-46 P-TO220-6-47 P-TO220-6-47 Features Description • The new generation CoolSET™-F3 provides Active Burst Mode to reach the lowest Standby Power Requirements 140°C S1 0.257V 4.8V VVCC FB t Figure 20 IVCC 7.2mA 1.05mA t Max. Ripple < 1% t Figure 19 Version 1.3 Auto Restart Mode C3 Voltage Reference Auto Restart Mode The VCC voltage is observed by comparator C1 if 17V is exceeded. The output of C1 is combined with both the output of C11 which checks for SoftS4.8V. Therefore the overvoltage detection is can only active during Soft Start Phase(SoftS 4.8V. Therefore any small voltage overshoots of VVCC during normal operating cannot trigger the Auto Restart Mode. In order to ensure system reliability and prevent any false activation, a blanking time is implemented before the IC can enter into the Auto Restart Mode. The output of the VCC overvoltage detection is fed into a spike blanking with a time constant of 8.0µs. The other fault detection which can result in the Auto Restart Mode and has this 8.0µs blanking time is the Overtemperature detection. This block checks for a junction temperature of higher than 140°C for malfunction operation. t VOUT & G5 5.4V 8.5V C4 Signals in Active Burst Mode 17 15 Sep 2004 CoolSET™-F3 Functional Description Once the Auto Restart Mode is entered, the internal Voltage Reference is switched off in order to reduce the current consumption of the IC as much as possible. In this mode, the average current consumption is only 300µA as the only working block is the Undervoltage Lockout(UVLO) which controls the Startup Cell by switching on/off at VVCCon/VVCCoff. As there is no longer a self supply by the auxiliary winding, VCC starts to drop. The UVLO switches on the integrated Startup Cell when VCC falls below 8.5V. It will continue to charge VCC up to 15V whereby it is switched off again and the IC enters into the Start Up Phase. As long as all fault conditions have been removed, the IC will automatically power up as usual with switching cycle at the GATE output after Soft Start duration. Thus the name Auto Restart Mode. Other fault detections which are active in normal operation is the sensing for Overload, Open Loop and VCC undervoltage conditions. In the first 2 cases, FB will rise above 4.8V which will be observed by C4. At this time, S1 is released such that VSoftS can rise from its earlier clamp voltage of 4.4V. If VSoftS exceeds 5.4V which is observed by C3, Auto Restart Mode is entered as both inputs of the gate G5 are high. This charging of the Soft Start capacitor from 4.4V to 5.4V defines a blanking window which prevents the system from entering into Auto Restart Mode unintentionally during large load jumps. In this event, FB will rise close to 6.5V for a short duration before the loop regulates with FB less than 4.8V. This is the same blanking time window as for the Active Burst Mode and can therefore be adjusted by the external CSoftS. In the case of VCC undervoltage, ie. VCC falls below 8.5V, the IC will be turn off with the Startup Cell charging VCC as described earlier in this section. Once VCC is charged above 15V, the IC will start a new startup cycle. The same procedure applies when the system is under Short Optocoupler fault condition, as it will lead to VCC undervoltage. Version 1.3 18 15 Sep 2004 CoolSET™-F3 Electrical Characteristics 4 Note: Electrical Characteristics All voltages are measured with respect to ground (Pin 8). The voltage levels are valid if other ratings are not violated. 4.1 Note: Absolute Maximum Ratings Absolute maximum ratings are defined as ratings, which when being exceeded may lead to destruction of the integrated circuit. For the same reason make sure, that any capacitor that will be connected to pin 7 (VCC) is discharged before assembling the application circuit. Parameter Symbol Unit Remarks 650 V Tj=110°C - 0.005 mJ ICE3x0565 EAR2 ICE3A0565Z - 0.01 mJ ICE3x1065 EAR3 - 0.07 mJ ICE3x1565 EAR4 - 0.15 mJ ICE3x2065 EAR5 ICE3A2065Z - 0.40 mJ ICE3x2565 EAR6 - 0.47 mJ ICE3x2065I ICE3x2065P EAR7 - 0.07 mJ ICE3x3065I ICE3x3065P EAR8 - 0.11 mJ ICE3x3565I ICE3x3565P EAR9 - 0.17 mJ ICE3x5065I ICE3x5065P EAR10 - 0.40 mJ ICE3x5565I ICE3x5565P EAR11 - 0.44 mJ Drain Source Voltage ICE3Axx65/xx65I/xx65P ICE3Bxx65/xx65I/xx65P Avalanche energy, repetitive tAR limited by max. Tj=150°C1) Version 1.3 ICE3x0365 Limit Values min. max. VDS - EAR1 19 15 Sep 2004 CoolSET™-F3 Electrical Characteristics Parameter Avalanche current, repetitive tAR limited by max. Tj=150°C 1) Symbol Limit Values Unit min. max. IAR1 - 0.3 A ICE3x0565 IAR2 ICE3A0565Z - 0.5 A ICE3x1065 IAR3 - 1.0 A ICE3x1565 IAR4 - 1.5 A ICE3x2065 IAR5 ICE3A2065Z - 2.0 A ICE3x2565 IAR6 - 2.5 A ICE3x2065I ICE3x2065P IAR7 - 2.0 A ICE3x3065I ICE3x3065P IAR8 - 3.0 A ICE3x3565I ICE3x3565P IAR9 - 3.5 A ICE3x5065I ICE3x5065P IAR10 - 5.0 A ICE3x5565I ICE3x5565P IAR11 - 5.5 A ICE3x0365 Remarks Repetitive avalanche causes additional power losses that can be calculated as PAV=EAR*f Version 1.3 20 15 Sep 2004 CoolSET™-F3 Electrical Characteristics Parameter Symbol Limit Values min. Thermal Resistance Junction-Ambient Thermal Resistance Junction-Case ICE3x0365 ICE3x0565 ICE3x1065 ICE3x1565 ICE3x2065 ICE3x2565 Unit Remarks max. RthJA1 90 K/W PG-DIP-8-6 ICE3A0565Z RthJA2 ICE3x2065Z 96 K/W PG-DIP-7-1 ICE3x2065I ICE3x3065I ICE3x3565I ICE3x5065I ICE3x5565I RthJA3 103 K/W P-TO220-6-46 Free standing without heatsink ICE3x2065P ICE3x3065P ICE3x3565P ICE3x5065P ICE3x5565P RthJA4 82 K/W P-TO220-6-47 Free standing without heatsink ICE3x2065I ICE3x2065P RthJC1 3.30 K/W P-TO220-6-46 P-TO220-6-47 ICE3x3065I ICE3x3065P RthJC2 3.08 K/W P-TO220-6-46 P-TO220-6-47 ICE3x3565I ICE3x3565P RthJC3 2.94 K/W P-TO220-6-46 P-TO220-6-47 ICE3x5065I ICE3x5065P RthJC4 2.79 K/W P-TO220-6-46 P-TO220-6-47 ICE3x5565I ICE3x5565P RthJC5 2.75 K/W P-TO220-6-46 P-TO220-6-47 VCC Supply Voltage VVCC -0.3 22 V FB Voltage VFB -0.3 6.5 V SoftS Voltage VSoftS -0.3 6.5 V CS Voltage VCS -0.3 6.5 V Junction Temperature Tj -40 150 °C Storage Temperature TS -55 150 °C ESD Capability(incl. Drain Pin) VESD - 3 kV 1) Controller & CoolMOS™ Human body model1) According to EIA/JESD22-A114-B (discharging a 100pF capacitor through a 1.5kΩ series resistor) Version 1.3 21 15 Sep 2004 CoolSET™-F3 Electrical Characteristics 4.2 Note: Operating Range Within the operating range the IC operates as described in the functional description. Parameter Symbol Limit Values min. max. Unit VCC Supply Voltage VVCC VVCCoff 21 V Junction Temperature of Controller TjCon -25 130 °C Junction Temperature of CoolMOS™ TjCoolMOS -25 150 °C 4.3 4.3.1 Note: Remarks Max value limited due to thermal shut down of controller Characteristics Supply Section 1 The electrical characteristics involve the spread of values within the specified supply voltage and junction temperature range TJ from – 25 ° C to 130 ° C. Typical values represent the median values, which are related to 25°C. If not otherwise stated, a supply voltage of VCC = 15 V is assumed. Parameter Symbol Limit Values min. typ. max. Unit Test Condition Start Up Current IVCCstart - 160 220 µA VVCC =14V VCC Charge Current IVCCcharge1 0.55 1.05 1.60 mA VVCC = 0V IVCCcharge2 - 0.88 - mA VVCC =14V Leakage Current of Start Up Cell and CoolMOS IStartLeak - 0.2 50 µA VVCC=16V, VDrain = 450V at Tj=100°C Supply Current with Inactive Gate IVCCsup1 - 5.5 7.0 mA Supply Current in Auto Restart Mode with Inactive Gate IVCCrestart - 300 - µA IFB = 0 ISofts = 0 Supply Current in Active Burst Mode with Inactive Gate IVCCburst1 - 1.05 1.25 mA VVCC =15V VFB = 3.7V, VSoftS = 4.4V IVCCburst2 - 0.95 1.15 mA VVCC = 9.5V VFB = 3.7V, VSoftS = 4.4V VCC Turn-On Threshold VCC Turn-Off Threshold VCC Turn-On/Off Hysteresis VVCCon VVCCoff VVCChys 14.2 8.0 - 15.0 8.5 6.5 15.8 9.0 - V V V Version 1.3 22 15 Sep 2004 CoolSET™-F3 Electrical Characteristics 4.3.2 Supply Section 2 Parameter Supply Current with Active Gate Supply Current with Active Gate Version 1.3 Symbol Limit Values min. typ. max. Unit Test Condition VSoftS = 4.4V IFB = 0 ICE3A0365 IVCCsup2 - 5.6 7.1 mA ICE3B0365 IVCCsup2 - 5.5 7.0 mA ICE3A0565 ICE3A0565Z IVCCsup2 - 5.7 7.2 mA ICE3B0565 IVCCsup2 - 5.6 7.1 mA ICE3A1065 IVCCsup2 - 5.9 7.5 mA ICE3B1065 IVCCsup2 - 5.6 7.1 mA ICE3A1565 IVCCsup2 - 6.3 8.0 mA ICE3B1565 IVCCsup2 - 6.0 7.6 mA ICE3A2065 ICE3A2065Z IVCCsup2 - 7.1 8.9 mA ICE3B2065 IVCCsup2 - 6.5 8.2 mA ICE3A2565 IVCCsup2 - 8.1 10.2 mA ICE3B2565 IVCCsup2 - 7.2 9.0 mA ICE3A2065I ICE3A2065P IVCCsup2 - 5.9 7.5 mA ICE3B2065I ICE3B2065P IVCCsup2 - 5.7 7.2 mA ICE3A3065I ICE3A3065P IVCCsup2 - 6.1 7.7 mA ICE3B3065I ICE3B3065P IVCCsup2 - 5.9 7.4 mA ICE3A3565I ICE3A3565P IVCCsup2 - 6.4 8.0 mA ICE3B3565I ICE3B3565P IVCCsup2 - 6.0 7.6 mA ICE3A5065I ICE3A5065P IVCCsup2 - 7.2 9.0 mA ICE3B5065I ICE3B5065P IVCCsup2 - 6.6 8.3 mA ICE3A5565I ICE3A5565P IVCCsup2 - 7.6 9.5 mA ICE3B5565I ICE3B5565P IVCCsup2 - 6.8 8.5 mA 23 VSoftS = 4.4V IFB = 0 15 Sep 2004 CoolSET™-F3 Electrical Characteristics 4.3.3 Internal Voltage Reference Parameter Symbol Trimmed Reference Voltage 4.3.4 VREF Limit Values min. typ. max. 6.37 6.50 6.63 Unit Test Condition V measured at pin FB IFB = 0 PWM Section Parameter Fixed Oscillator Frequency Symbol Limit Values min. typ. max. Unit ICE3Axx65 ICE3Axx65Z ICE3Axx65I ICE3Axx65P fOSC1 92 100 108 kHz fOSC2 94 100 106 kHz ICE3Bxx65 ICE3Bxx65I ICE3Bxx65P fOSC1 61 67 73 kHz fOSC2 63 67 71 kHz Max. Duty Cycle Dmax 0.67 0.72 0.77 Min. Duty Cycle Dmin 0 - - PWM-OP Gain AV 3.5 3.7 3.9 Voltage Ramp Max Level VMax-Ramp - 0.85 - V VFB Operating Range Min Level VFBmin 0.3 0.7 - V VFB Operating Range Max level VFBmax - - 4.75 V FB Pull-Up Resistor RFB 16 20 27 kΩ SoftS Pull-Up Resistor RSoftS 39 50 62 kΩ Fixed Oscillator Frequency 1) Test Condition Tj = 25°C Tj = 25°C VFB < 0.3V CS=1V, limited by Comparator C41) Design characteristic (not meant for production testing) Version 1.3 24 15 Sep 2004 CoolSET™-F3 Electrical Characteristics 4.3.5 Control Unit Parameter Symbol Limit Values min. typ. max. Unit Test Condition Deactivation Level for SoftS Comparator C7 by C2 VSoftSC2 3.85 4.00 4.15 V VFB > 5V Clamped VSoftS Voltage during Normal Operating Mode VSoftSclmp 4.23 4.40 4.57 V VFB = 4V Activation Limit of Comparator C3 VSoftSC3 5.20 5.40 5.60 V VFB > 5V SoftS Startup Current ISoftSstart - 1.3 - mA VSoftS = 0V Over Load & Open Loop Detection Limit for Comparator C4 VFBC4 4.62 4.80 4.98 V VSoftS > 5.6V Active Burst Mode Level for Comparator C5 VFBC5 1.23 1.30 1.37 V VSoftS > 5.6V Active Burst Mode Level for Comparator C6a VFBC6a 3.85 4.00 4.15 V After Active Burst Mode is entered Active Burst Mode Level for Comparator C6b VFBC6b 3.25 3.40 3.55 V After Active Burst Mode is entered Overvoltage Detection Limit VVCCOVP 16.1 17.1 18.1 V VFB > 5V VSoftS < 4.0V Thermal Shutdown1) TjSD 130 140 150 °C Spike Blanking tSpike - 8.0 - µs 1) The parameter is not subject to production test - verified by design/characterization Note: The trend of all the voltage levels in the Control Unit is the same regarding the deviation except VVCCOVP and VVCCPD 4.3.6 Current Limiting Parameter Symbol Limit Values min. typ. max. Unit Test Condition dVsense / dt = 0.6V/µs (see Figure 15) Peak Current Limitation (incl. Propagation Delay) Vcsth 0.97 1.02 1.07 V Peak Current Limitation during Active Burst Mode VCS2 0.232 0.257 0.282 V Leading Edge Blanking tLEB - 220 - ns VSoftS = 4.4V CS Input Bias Current ICSbias -1.0 -0.2 0 µA VCS =0V Version 1.3 25 15 Sep 2004 CoolSET™-F3 Electrical Characteristics 4.3.7 CoolMOS™ Section Parameter Symbol Limit Values min. typ. max. Unit Test Condition Drain Source Breakdown Voltage ICE3Axx65/xx65I/xx65P ICE3Bxx65/xx65I/xx65P V(BR)DSS 600 650 - - V V Tj = 25°C Tj = 110°C Drain Source On-Resistance ICE3A0365 ICE3B0365 RDSon1 - 6.45 13.7 7.50 17.0 Ω Ω Tj = 25°C Tj = 125°C at ID = 0.3A ICE3A0565 ICE3A0565Z ICE3B0565 RDSon2 - 4.70 10.0 5.44 12.5 Ω Ω Tj = 25°C Tj = 125°C at ID = 0.5A ICE3A1065 ICE3B1065 RDSon3 - 2.95 6.6 3.42 7.56 Ω Ω Tj = 25°C Tj = 125°C at ID = 1.0A ICE3A1565 ICE3B1565 RDSon4 - 1.70 3.57 1.96 4.12 Ω Ω Tj = 25°C Tj = 125°C at ID = 1.5A ICE3A2065 ICE3A2065Z ICE3B2065 RDSon5 - 0.92 1.93 1.05 2.22 Ω Ω Tj = 25°C Tj = 125°C at ID = 2.0A ICE3A2565 ICE3B2565 RDSon6 - 0.65 1.37 0.75 1.58 Ω Ω Tj = 25°C Tj = 125°C at ID = 2.5A ICE3A2065I ICE3A2065P ICE3B2065I ICE3B2065P RDSon7 - 3.00 6.6 3.47 7.63 Ω Ω Tj = 25°C Tj = 125°C at ID =1.0A ICE3A3065I ICE3A3065P ICE3B3065I ICE3B3065P RDSon8 - 2.10 4.41 2.43 5.10 Ω Ω Tj = 25°C Tj = 125°C at ID = 1.5A ICE3A3565I ICE3A3565P ICE3B3565I ICE3B3565P RDSon9 - 1.55 3.26 1.80 3.78 Ω Ω Tj = 25°C Tj = 125°C at ID = 1.8A ICE3A5065I ICE3A5065P ICE3B5065I ICE3B5065P RDSon10 0.95 2.00 1.10 2.31 Ω Ω Tj = 25°C Tj = 125°C at ID = 2.5A ICE3A5565I ICE3A5565P ICE3B5565I ICE3B5565P RDSon11 0.79 1.68 0.91 1.92 Ω Ω Tj = 25°C Tj = 125°C at ID = 2.8A Drain Source On-Resistance Version 1.3 - 26 15 Sep 2004 CoolSET™-F3 Electrical Characteristics Parameter Effective output capacitance, energy related Symbol Limit Values min. typ. max. Unit Test Condition VDS = 0V to 480V ICE3A0365 ICE3B0365 Co(er)1 - 3.65 - pF ICE3A0565 ICE3A0565Z ICE3B0565 Co(er)2 - 4.75 - pF ICE3A1065 ICE3B1065 Co(er)3 - 7.0 - pF ICE3A1565 ICE3B1565 Co(er)4 - 11.63 - pF ICE3A2065 ICE3A2065Z ICE3B2065 Co(er)5 - 21 - pF ICE3A2565 ICE3B2565 Co(er)6 - 26.0 - pF ICE3A2065I ICE3A2065P ICE3B2065I ICE3B2065P Co(er)7 - 7.0 - pF ICE3A3065I ICE3A3065P ICE3B3065I ICE3B3065P Co(er)8 - 10.0 - pF ICE3A3565I ICE3A3565P ICE3B3565I ICE3B3565P Co(er)9 - 14.0 - pF ICE3A5065I ICE3A5065P ICE3B5065I ICE3B5065P Co(er)10 - 20.5 - pF ICE3A5565I ICE3A5565P ICE3B5565I ICE3B5565P Co(er)11 - 23.0 - pF Rise Time trise - 301) - ns Fall Time tfall - 301) - ns Effective output capacitance, energy related 1) VDS = 0V to 480V Measured in a Typical Flyback Converter Application Version 1.3 27 15 Sep 2004 CoolSET™-F3 Outline Dimension 5 Outline Dimension PG-DIP-8-6 (Leadfree Plastic Dual In-Line Outline) 0.38 MIN. 1.7 MAX. 2.54 0.46 ±0.1 0.35 7x 7 3.25 MIN. PG-DIP-7-1 (Leadfree Plastic Dual In-Line Outline) 4.37 MAX. Figure 21 PG-DIP-8-6 (Leadfree Plastic Dual In-Line Outline) 7.87 ±0.38 0.25 +0.1 6.35 ±0.25 1) 8.9 ±1 5 4 1 9.52 ±0.25 1) Index Marking 1) Does not include plastic or metal protrusion of 0.25 max. per side Figure 22 PG-DIP-7-1 (Leadfree Plastic Dual In-Line Outline) Dimensions in mm Version 1.3 28 15 Sep 2004 CoolSET™-F3 Outline Dimension P-TO220-6-46 (Isodrain I2Pak Package) 9.9 7.5 1.3 +0.1 -0.02 (0.8) B 9.2 ±0.2 0.05 8 1) 8.6 ±0.3 10.2 ±0.3 12.1±0.3 6.6 4.4 A 7.62 0.25 0...0.15 M 0.5 ±0.1 A B 2.4 6 x 0.6 ±0.1 5.3 ±0.3 4 x 1.27 8.4 ±0.3 1) Shear and punch direction no burrs this surface Back side, heatsink contour All metal surfaces tin plated, except area of cut. Figure 23 P-TO220-6-46 (Isodrain I2Pak Package) 9.9 ±0.2 A 9.5 ±0.2 B 3.7 -0.15 13 0.05 1) 8.6 ±0.3 15.6 ±0.3 17.5 ±0.3 6.6 4.4 1.3 +0.1 -0.02 2.8 ±0.2 7.5 9.2 ±0.2 P-TO220-6-47 (Isodrain Package) 7.62 0...0.15 0.25 M 0.5 ±0.1 A B 2.4 6 x 0.6 ±0.1 4 x 1.27 5.3 ±0.3 8.4 ±0.3 1) Shear and punch direction no burrs this surface Back side, heatsink contour All metal surfaces tin plated, except area of cut. Figure 24 P-TO220-6-47 (Isodrain Package) Dimensions in mm Version 1.3 29 15 Sep 2004 Total Quality Management Qualität hat für uns eine umfassende Bedeutung. Wir wollen allen Ihren Ansprüchen in der bestmöglichen Weise gerecht werden. Es geht uns also nicht nur um die Produktqualität – unsere Anstrengungen gelten gleichermaßen der Lieferqualität und Logistik, dem Service und Support sowie allen sonstigen Beratungs- und Betreuungsleistungen. Quality takes on an allencompassing significance at Semiconductor Group. For us it means living up to each and every one of your demands in the best possible way. So we are not only concerned with product quality. We direct our efforts equally at quality of supply and logistics, service and support, as well as all the other ways in which we advise and attend to you. Dazu gehört eine bestimmte Geisteshaltung unserer Mitarbeiter. Total Quality im Denken und Handeln gegenüber Kollegen, Lieferanten und Ihnen, unserem Kunden. Unsere Leitlinie ist jede Aufgabe mit „Null Fehlern“ zu lösen – in offener Sichtweise auch über den eigenen Arbeitsplatz hinaus – und uns ständig zu verbessern. Part of this is the very special attitude of our staff. Total Quality in thought and deed, towards co-workers, suppliers and you, our customer. Our guideline is “do everything with zero defects”, in an open manner that is demonstrated beyond your immediate workplace, and to constantly improve. Unternehmensweit orientieren wir uns dabei auch an „top“ (Time Optimized Processes), um Ihnen durch größere Schnelligkeit den entscheidenden Wettbewerbsvorsprung zu verschaffen. Geben Sie uns die Chance, hohe Leistung durch umfassende Qualität zu beweisen. Wir werden Sie überzeugen. http://www.infineon.com Published by Infineon Technologies AG Throughout the corporation we also think in terms of Time Optimized Processes (top), greater speed on our part to give you that decisive competitive edge. Give us the chance to prove the best of performance through the best of quality – you will be convinced. This datasheet has been download from: www.datasheetcatalog.com Datasheets for electronics components.