PKG4627PI Ericsson Microelectronics, PKG4627PI Datasheet
PKG4627PI
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PKG4627PI Summary of contents
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... These products are manufactured using highly automated manufacturing lines with a world-class quality commitment and a five-year warranty. Ericsson Microelectronics AB has been an ISO 9001 certified supplier since 1991. For a complete product program please reference the back cover. ...
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... At input voltages exceeding 72 V (abnormal voltage) the power loss will be higher than at normal input voltage and T limited to max +90 °C. Absolute max con- tinuous input voltage dc. Output characteristics will be marginally affected at input voltages exceeding 72 V. EN/LZT 146 04 R1B © Ericsson Microelectronics, November 2001 must be C ...
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... Positive output 2. 8 – Out 1 Negative output 1. 9 +Out 1 Positive output Output voltage adjust. adj EN/LZT 146 04 R1B © Ericsson Microelectronics, November 2001 Dimensions in mm (in) Weight Maximum 75 g (2.66 oz). Case Blue anodized aluminium casing with em- bedded tin plated copper pins. 3 ...
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... – sub Electrical Data h × (1/ -1) O Fundamental circuit diagrams C max Single output to the pins 2.5 C/W th sub-P Dual output sub-A T sub sub Case Control Isolated feedback EN/LZT 146 04 R1B © Ericsson Microelectronics, November 2001 ...
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... See Operating information. 2) Temperature coefficient is positive at low temperatures and negative at high temperatures. 3) See also Typical Characteristics, Power derating. Miscellaneous Characteristics h Efficiency P Power dissipation d EN/LZT 146 04 R1B © Ericsson Microelectronics, November 2001 Conditions T = +25° 14 Long term drift = 0.1 …1.0 ´ max ...
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... I O max O Conditions max max O I Output 1 min typ max 2.49 2.51 2.53 2.25 2.75 2.43 2.57 3 100 +250 –500 see PKG 4319 PI Temperature characteristics 15 100 47 3.5 min typ max 78 10.5 EN/LZT 146 04 R1B © Ericsson Microelectronics, November 2001 Unit p Unit % W ...
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... See Operating information. 2) Temperature coefficient is positive at low temperatures and negative at high temperatures. 3) See also Typical Characteristics, Power derating. Miscellaneous Characteristics h Efficiency P Power dissipation d EN/LZT 146 04 R1B © Ericsson Microelectronics, November 2001 Conditions T = +25° Long term drift = 0.1 …1.0 ´ max ...
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... I O max O Conditions max max O I Output 1 min typ max 5.12 5.15 5.18 4.65 5.65 5.00 5.20 5 100 +350 –500 see PKG 4611 PI Temperature characteristics 12 100 50 6 min typ max 86 10 EN/LZT 146 04 R1B © Ericsson Microelectronics, November 2001 Unit p Unit % W ...
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... OVP Over voltage protection 1) See Operating information. 2) Temperature coefficient is positive at low temperatures and negative at high temperatures. Miscellaneous Characteristics h Efficiency P Power dissipation d EN/LZT 146 04 R1B © Ericsson Microelectronics, November 2001 Conditions T = +25° 10A Long term drift = 0.1 …1.0 ´ max O ...
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... PKG 4428 PI Temperature characteristics 9.6 0 min 40 5) min 1.02 × max 15 100 150 100 min typ max 84 7.6 EN/LZT 146 04 R1B © Ericsson Microelectronics, November 2001 Unit max 5.40 V 5.90 V 5. 150 mV p Unit % W ...
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... Temperature coefficient is positive at low temperatures and negative at high temperatures. 3) See also Typical Characteristics, Power derating each output is set by the total load. lim Miscellaneous Characteristics h Efficiency P Power dissipation d EN/LZT 146 04 R1B © Ericsson Microelectronics, November 2001 O1 nom Conditions T = +25° nom 0.1 …1.0 ´ I Long term drift ...
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... PKG 4625 PI Temperature characteristics 3.2 0 min 60 4) min 1.02 × max 9 9 100 150 100 min typ 89 7.4 EN/LZT 146 04 R1B © Ericsson Microelectronics, November 2001 Unit max 15.10 V 16.50 V 15. 3 150 mV p Unit max ...
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... Temperature coefficient is positive at low temperatures and negative at high temperatures. 3) See also Typical Characteristics, Power derating each output is set by the total load. lim Miscellaneous Characteristics h Efficiency P Power dissipation d EN/LZT 146 04 R1B © Ericsson Microelectronics, November 2001 O1 nom Conditions T = +25° nom 0.1 …1.0 ´ I Long term drift ...
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... O <100 ms Recover time t r The output voltage deviation is determined by the load transient (dI/dt) 2. Load change: 0.25×I …0.75×I O nom O nom dI/dt » 5 A/ms EN/LZT 146 04 R1B © Ericsson Microelectronics, November 2001 < 0.1×V Oi …0.25× nom Oi …0.25×I O nom ...
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... Load current (A) Temperature characteristics Efficiency (typ Load current (A) Temperature characteristics EN/LZT 146 04 R1B © Ericsson Microelectronics, November 2001 PKG 4410 PI Output characteristic (typ) 3.7 3.5 3.3 3 Load current (A) Dynamic load response (typ) PKG 4611 PI Output characteristic (typ) 5.8 5.4 5.0 4.6 ...
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... Output characteristic (typ) Dynamic load response (typ) 1. Maximum deviation DV PKG 4428 PI Output characteristic (typ) Dynamic load response (typ) 1. Maximum deviation DV 2. Load change: EN/LZT 146 04 R1B © Ericsson Microelectronics, November 2001 Power derating < 0.1× <100 ms Recover time t r The output voltage deviation is determined by the load transient (dI/dt) 2 ...
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... Efficiency (typ) Temperature characteristics Efficiency (typ) Temperature characteristics EN/LZT 146 04 R1B © Ericsson Microelectronics, November 2001 PKG 4623 PI Output characteristic (typ) 1) Dynamic load response (typ) PKG 4625 PI Output characteristic (typ) 1) Dynamic load response (typ) Power derating 1. Maximum deviation DV < 0.1×V ...
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... Efficiency (typ) Temperature characteristics 18 PKG 4627 PI Output characteristic (typ) Dynamic load response (typ) 1. Maximum deviation DV EN/LZT 146 04 R1B © Ericsson Microelectronics, November 2001 Power derating < 0.1× <100 ms Recover time t r The output voltage deviation is determined by the load transient (dI/dt) 2. Load change: 0.25× ...
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... Conducted EMI Input terminal value (typ) External Filter (class B) Required external input filter in order to meet class 55022, CISPR 22 and FCC part 15J. The capacitors are of ceramic type. The low ESR is critical for the result. EN/LZT 146 04 R1B © Ericsson Microelectronics, November 2001 = (0.1...1.0) × max ...
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... A 0.1 O approximately 5 F oz/ copper with a trace =n × 0.8 × max O ), specified as a minimum value. lim m H. Their equivalent series resistance m F. EN/LZT 146 04 R1B © Ericsson Microelectronics, November 2001 for dual outputs where P O max ...
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... No license is granted by implication or otherwise under any patent or patent rights of Ericsson Microelectronics. These products are sold only according to Ericsson Microelectronics’ general conditions of sale, unless otherwise confirmed in writing ...
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... W PKG 4611 PKG 4617 PIOA 5 V/6 PKG 4428 PKG 4623 PI 15 V/3 PKG 4625 PKG 4627 PI The latest and most complete infor- mation can be found on our website! Preliminary Data Sheet EN/LZT 146 04 R1B © Ericsson Microelectronics AB, November 2001 ...