PKR4910ASI Ericsson Power Modules, PKR4910ASI Datasheet
PKR4910ASI
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PKR4910ASI Summary of contents
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... Technical Specifi cation Rev Rev Reference Reference EN/LZT 146 302 R6F November 2007 EN/LZT 146 302 R6G November 2008 F F © Ericsson Power Modules AB © Ericsson Power Modules AB Design for Environment Meets requirements in high- temperature lead-free soldering processes. ............................................................. 2 ............................................................. 3 ............................................................. 4 Ordering No. ............................................................. 5 ...
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... Warranty period and conditions are defined in Ericsson Power Modules General Terms and Conditions of Sale. Limitation of Liability Ericsson Power Modules does not make any other warranties, expressed or implied including any warranty of merchantability or fitness for a particular purpose (including, but not limited to, use in life support applications, where malfunctions of product can cause injury to a person’ ...
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... Extra Low Voltage) and the output remains SELV under normal and abnormal operating conditions. 48 and systems If the input voltage to Ericsson Power Modules DC/DC converter is 75 Vdc or less, then the output remains SELV (Safety Extra Low Voltage) under normal and abnormal operating conditions. ...
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... Technical Specifi cation Rev Reference EN/LZT 146 302 R6F November 2007 EN/LZT 146 302 R6E September 2007 EN/LZT 146 302 R6G November 2008 G © Ericsson Power Modules AB © Ericsson Power Modules AB © Ericsson Power Modules AB min typ max -45 +110 -55 +125 -0.5 ...
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... Technical Specifi cation Rev Reference EN/LZT 146 302 R6G November 2008 EN/LZT 146 302 R6F November 2007 EN/LZT 146 302 R6E September 2007 G © Ericsson Power Modules AB © Ericsson Power Modules AB © Ericsson Power Modules AB PKR 4310 SI min typ max 33.4 ...
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... EN/LZT 146 302 R6E September 2007 EN/LZT 146 302 R6G November 2008 EN/LZT 146 302 R6F November 2007 G © Ericsson Power Modules AB © Ericsson Power Modules AB © Ericsson Power Modules AB 0.5 1.0 Dissipated power vs. load current and input voltage +25°C ref ...
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... EN/LZT 146 302 R6F November 2007 EN/LZT 146 302 R6G November 2008 EN/LZT 146 302 R6E September 2007 G © Ericsson Power Modules AB © Ericsson Power Modules AB © Ericsson Power Modules AB PKR 4310 SI at: Top trace: output voltage (0.5 V/div.). Bottom I trace: input voltage (50 V/div.). ...
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... Technical Specifi cation Rev Reference EN/LZT 146 302 R6F November 2007 EN/LZT 146 302 R6E September 2007 EN/LZT 146 302 R6G November 2008 G © Ericsson Power Modules AB © Ericsson Power Modules AB © Ericsson Power Modules AB PKR 4510 SI min typ max 33.4 ...
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... Technical Specifi cation Rev Reference EN/LZT 146 302 R6F November 2007 EN/LZT 146 302 R6G November 2008 EN/LZT 146 302 R6E September 2007 G © Ericsson Power Modules AB © Ericsson Power Modules AB © Ericsson Power Modules AB 0.3 0.5 0.8 1.0 1.3 1.5 [A] 0.5 1.0 1 ...
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... EN/LZT 146 302 R6E September 2007 EN/LZT 146 302 R6F November 2007 EN/LZT 146 302 R6G November 2008 G © Ericsson Power Modules AB © Ericsson Power Modules AB © Ericsson Power Modules AB at: Top trace: output voltage (1 V/div.). Bottom I = 1.5 A resistive load, trace: input voltage (20 V/div.). ...
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... Technical Specifi cation Rev Reference EN/LZT 146 302 R6E September 2007 EN/LZT 146 302 R6G November 2008 EN/LZT 146 302 R6F November 2007 G © Ericsson Power Modules AB © Ericsson Power Modules AB © Ericsson Power Modules AB PKR 4611 SI min typ max 33.4 ...
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... Technical Specifi cation Rev Reference EN/LZT 146 302 R6F November 2007 EN/LZT 146 302 R6E September 2007 EN/LZT 146 302 R6G November 2008 G © Ericsson Power Modules AB © Ericsson Power Modules AB © Ericsson Power Modules AB 0.2 0.4 0.6 0.8 1.0 1.2 [A] 1.0 1.5 2 ...
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... EN/LZT 146 302 R6E September 2007 EN/LZT 146 302 R6F November 2007 EN/LZT 146 302 R6G November 2008 G © Ericsson Power Modules AB © Ericsson Power Modules AB © Ericsson Power Modules AB at: Top trace: output voltage (1 V/div.). Bottom I = 1.2 A resistive load, trace: input voltage (20 V/div.). ...
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... Technical Specifi cation Technical Specifi cation Rev Reference EN/LZT 146 302 R6E September 2007 EN/LZT 146 302 R6G November 2008 EN/LZT 146 302 R6F November 2007 G © Ericsson Power Modules AB © Ericsson Power Modules AB © Ericsson Power Modules AB min typ max 33 ...
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... Reference EN/LZT 146 302 R6E September 2007 EN/LZT 146 302 R6G November 2008 EN/LZT 146 302 R6F November 2007 G © Ericsson Power Modules AB © Ericsson Power Modules AB © Ericsson Power Modules AB 0.0 0.1 0.2 0.3 0.4 0.5 Dissipated power vs. load current and input voltage +25° ...
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... EN/LZT 146 302 R6F November 2007 EN/LZT 146 302 R6G November 2008 EN/LZT 146 302 R6E September 2007 G © Ericsson Power Modules AB © Ericsson Power Modules AB © Ericsson Power Modules AB PKR 4713 SI Place your graph here at: Top trace: output voltage (5 V/div.). ...
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... Technical Specifi cation Rev Reference EN/LZT 146 302 R6E September 2007 EN/LZT 146 302 R6F November 2007 EN/LZT 146 302 R6G November 2008 G © Ericsson Power Modules AB © Ericsson Power Modules AB © Ericsson Power Modules AB min typ 38 30 33.4 32 35.7 2 ...
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... Reference EN/LZT 146 302 R6E September 2007 EN/LZT 146 302 R6G November 2008 EN/LZT 146 302 R6F November 2007 G © Ericsson Power Modules AB © Ericsson Power Modules AB © Ericsson Power Modules AB 0.00 0.05 0.10 0.15 0.20 0.25[A] Output 1. Dissipated power vs. load current and input voltage +25° ...
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... EN/LZT 146 302 R6E September 2007 EN/LZT 146 302 R6F November 2007 EN/LZT 146 302 R6G November 2008 G © Ericsson Power Modules AB © Ericsson Power Modules AB © Ericsson Power Modules AB PKR 4621 SI at: Top trace: Output 1 (5 V/div.). Mid trace: Output 2 (5 V/div.). ...
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... Technical Specifi cation Rev Reference EN/LZT 146 302 R6E September 2007 EN/LZT 146 302 R6G November 2008 EN/LZT 146 302 R6F November 2007 G © Ericsson Power Modules AB © Ericsson Power Modules AB © Ericsson Power Modules AB min typ 38 30 32.0 32 35.3 2 ...
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... Rev Reference EN/LZT 146 302 R6E September 2007 EN/LZT 146 302 R6G November 2008 EN/LZT 146 302 R6F November 2007 G © Ericsson Power Modules AB © Ericsson Power Modules AB © Ericsson Power Modules AB 0.0 0.1 0.2 0.3 0.4 0.5 0.6 [A] Output 1. Dissipated power vs. load current and input voltage +25° ...
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... EN/LZT 146 302 R6F November 2007 EN/LZT 146 302 R6G November 2008 EN/LZT 146 302 R6E September 2007 G © Ericsson Power Modules AB © Ericsson Power Modules AB © Ericsson Power Modules AB PKR 4622 SI at: Top trace: Output 1 (2 V/div.). Mid trace: Output 2 (2 V/div.). ...
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... Technical Specifi cation Rev Reference EN/LZT 146 302 R6F November 2007 EN/LZT 146 302 R6G November 2008 EN/LZT 146 302 R6E September 2007 G © Ericsson Power Modules AB © Ericsson Power Modules AB © Ericsson Power Modules AB min typ 38 30 33.4 32 34.9 2 ...
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... Reference EN/LZT 146 302 R6F November 2007 EN/LZT 146 302 R6E September 2007 EN/LZT 146 302 R6G November 2008 G © Ericsson Power Modules AB © Ericsson Power Modules AB © Ericsson Power Modules AB 0.0 0.1 0.2 0.3 0.4 0.5 Output 1. Dissipated power vs. load current and input voltage +25° ...
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... EN/LZT 146 302 R6E September 2007 EN/LZT 146 302 R6F November 2007 EN/LZT 146 302 R6G November 2008 G © Ericsson Power Modules AB © Ericsson Power Modules AB © Ericsson Power Modules AB at: Top trace: Output 1 (2 V/div.). 0.9 A resistive Mid trace: Output 2 (2 V/div.). ...
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... Technical Specifi cation Technical Specifi cation Rev Reference EN/LZT 146 302 R6F November 2007 EN/LZT 146 302 R6E September 2007 EN/LZT 146 302 R6G November 2008 D © Ericsson Power Modules AB © Ericsson Power Modules AB © Ericsson Power Modules AB 1 (5) 26 ...
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... EN/LZT 146 302 R6G November 2008 EN/LZT 146 302 R6F November 2007 EN/LZT 146 302 R6E September 2007 D © Ericsson Power Modules AB © Ericsson Power Modules AB © Ericsson Power Modules AB ) adj ). This pin can be used to adjust the adj pin and +IN. To decrease the output voltage, adj pin and NOR pin ...
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... Rev Reference EN/LZT 146 302 R6E September 2007 EN/LZT 146 302 R6F November 2007 EN/LZT 146 302 R6G November 2008 D © Ericsson Power Modules AB © Ericsson Power Modules AB © Ericsson Power Modules AB +85°C. ref Device Designation max value Transformer T 110º C ...
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... Technical Specifi cation Technical Specifi cation Technical Specifi cation Rev Reference EN/LZT 146 302 R6E September 2007 EN/LZT 146 302 R6F November 2007 EN/LZT 146 302 R6G November 2008 D © Ericsson Power Modules AB © Ericsson Power Modules AB © Ericsson Power Modules ...
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... Technical Specifi cation Technical Specifi cation Rev Reference EN/LZT 146 302 R6F November 2007 EN/LZT 146 302 R6E September 2007 EN/LZT 146 302 R6G November 2008 E © Ericsson Power Modules AB © Ericsson Power Modules AB © Ericsson Power Modules AB 1 (4) 30 ...
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... Technical Specifi cation Technical Specifi cation Rev Reference EN/LZT 146 302 R6F November 2007 EN/LZT 146 302 R6E September 2007 EN/LZT 146 302 R6G November 2008 E © Ericsson Power Modules AB © Ericsson Power Modules AB © Ericsson Power Modules AB 2 (4) 31 ...
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... Technical Specifi cation Technical Specifi cation Rev Reference EN/LZT 146 302 R6F November 2007 EN/LZT 146 302 R6E September 2007 EN/LZT 146 302 R6G November 2008 E © Ericsson Power Modules AB © Ericsson Power Modules AB © Ericsson Power Modules AB 3 (4) 32 ...
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... Reference EN/LZT 146 302 R6E September 2007 EN/LZT 146 302 R6G November 2008 EN/LZT 146 302 R6F November 2007 D © Ericsson Power Modules AB © Ericsson Power Modules AB © Ericsson Power Modules AB ) between +220°C PIN Solder bump Profile 60-90 s 30-60 s 170°C to 180°C 221° ...
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... Technical Specifi cation Technical Specifi cation Rev Reference EN/LZT 146 302 R6F November 2007 EN/LZT 146 302 R6E September 2007 EN/LZT 146 302 R6G November 2008 D © Ericsson Power Modules AB © Ericsson Power Modules AB © Ericsson Power Modules AB 2 (5) 34 ...
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... Reference EN/LZT 146 302 R6F November 2007 EN/LZT 146 302 R6G November 2008 EN/LZT 146 302 R6E September 2007 D © Ericsson Power Modules AB © Ericsson Power Modules AB © Ericsson Power Modules AB PPE, antistatic < Ohm/square < 10 The trays can be baked at maximum 125 °C for maximum 48 hours ...
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... Reference EN/LZT 146 302 R6F November 2007 EN/LZT 146 302 R6E September 2007 EN/LZT 146 302 R6G November 2008 D © Ericsson Power Modules AB © Ericsson Power Modules AB © Ericsson Power Modules AB According to Absolute maximum ratings Maximum output power 500 500 Hz 2 0.5 g ...