key features ? wide input, 3.0-5.5 vdc ? programmable output, 0.75 - 3.6 vdc ? under voltage protection ? short circuit protection ? remote sense ? remote on/off ? design for environment (dfe) ? european commission directive 2002/95/ec (rohs) compliant e datasheet dc/dc regulator input 3.0 - 5.5 v output 16 a pmc 4518t ws the pmc series of surface mount dc/dc regulators (pol) are intended to be used as local distributed power sources in distributed power architecture level 4. the high efficiency and high reliability of the pmc series makes them particularly suited for the communications equipment of today and tomorrow. these products are manufactured using the most advanced technologies and materials to comply with environmental requirements. designed to meet high reliability requirements of systems manufacturers, the pmc responds to world-class specifications. ericsson power modules is an iso 9001/14001 certified supplier. contents product program . . . . . . . . . . . . . . . . . . . . . . 2 mechanical data . . . . . . . . . . . . . . . . . . . . . . 3 connections . . . . . . . . . . . . . . . . . . . . . . . . . 3 absolute maximum ratings . . . . . . . . . . . . . 4 input . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4 product qualification specification . . . . . . . . 5 safety specification . . . . . . . . . . . . . . . . . . . 6 adjusted to 1.0 v out - data . . . . . . . . . . . . . 7 adjusted to 1.2 v out - data . . . . . . . . . . . . 1 0 adjusted to 1.5 v out - data . . . . . . . . . . . . 1 3 adjusted to 1.8 v out - data . . . . . . . . . . . . 1 6 adjusted to 2.5 v out - data . . . . . . . . . . . . 1 9 adjusted to 3.3 v out - data . . . . . . . . . . . . 2 2 emc specification . . . . . . . . . . . . . . . . . . . . 2 5 operating information . . . . . . . . . . . . . . . . . 2 5 thermal considerations . . . . . . . . . . . . . . . 2 8 soldering information . . . . . . . . . . . . . . . . . 2 9 delivery package information . . . . . . . . . . . 3 0 reliability . . . . . . . . . . . . . . . . . . . . . . . . . . . 3 0 compatibility with rohs requirements . . . . 3 0 sales offices and contact information . . . . 3 1
� en/lzt 146 055 r4a ? ericsson power modules, march 2007 pmc 4518t ws datasheet delivery option m.o.q. suffix example tape & reel 200 pcs /c pmc 4xxxt ws /c ordering information * input voltage limited to 3.8-5.5v for 3.3 vout and for output voltages of 3.3v and 4.5-5.5 for output voltages above 3.3v. product program v i v o /i o max p o max ordering no. comment output 1 3.0-5.5 v* 0.75-3.6 v/16 a 52.8 w pmc 4518t ws standard version 3.0-5.5 v 1.0 v/16 a 16.0 w pmc 4118na ws on request 3.0-5.5 v 1.2 v/16 a 19.2 w pmc 4118la ws on request 3.0-5.5 v 1.5 v/16 a 24.0 w pmc 4218h ws on request 3.0-5.5 v 1.8 v/16 a 28.8 w pmc 4218g ws on request 3.0-5.5 v 2.5 v/16 a 40.0 w pmc 4419 ws on request 3.8-5.5 v 3.3 v/16 a 52.8 w pmc 4510 ws on request option suffix example negative remote control logic n pmc 4518t wsn
� en/lzt 146 055 r4a ? ericsson power modules, march 2007 pmc 4518t ws datasheet pin designation function 1 rc remote control 2 + in positive input 3 gnd ground 4 + out positive output 5 vadj external output adjust 6 + sense positive remote sense dim ensions in m m [inch] tolerances (unless specified): x,xx 0,25[0,01] pin true position w ithin 0,4 [0,016] ? 4,83(3x) [0.190] 7,54 �<�����������> 7,87 [0.310] 10,92 �<�����������> 10,29 [0.405] 3,80 �<�����������> 2,6 [0.102] �3�f�d�p�n�n�f�o�e�f�e���g�p�p�u�q�s�j�o�u�� �5�p�q���7�j�f�x m ax 8,25 [0.324] co-planarity m ax 0,1[0,004] 33,00 [1.299] 13,46 [0.530] 2,70(6x) [0.106] 4,83(3x) [0.190] [0.310] 7,87 7,54 [0.297] 10,29 [0.405] 10,92 [0.430] 1,50(6x) [0.059] ���
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� en/lzt 146 055 r4a ? ericsson power modules, march 2007 pmc 4518t ws datasheet fundamental circuit diagram gnd gnd pwm +in +out +sense vadj controller ref gnd error amplifier rc rc gnd block characteristics min typ max unit t ref operating reference temperature, see pg. 27 -45 +115 ?c t s storage temperature -55 +125 ?c v i input voltage -0.3 +5.5 vdc input stress in excess of absolute maximum ratings may cause permanent damage. absolute maximum ratings, sometimes referred to as no destruction limits, are normally tested with one parameter at a time exceeding the limits of output data or electrical characteristics. if exposed to stress above these limits, function and performance may degrade in an unspecified manner. absolute maximum ratings t ref = -30 ... +90 ?c, v i = 3.0...5.5 v unless otherwise specified typ values specified at: t ref = +25 ?c, v i nom, i o max = 16 a 1) measured with 2 x 22 f ceramic capacitors characteristics conditions min typ max unit v i input voltage range 3.0 5.5 vdc v ioff turn-off input voltage ramp from higher voltage, v out = 1.0- 2.5 v, v in = 3.3 v 2.3 vdc ramp from higher voltage, v out = 3.3 v, v in = 5.0 v 3.4 v ion turn-on input voltage ramp from lower voltage, v out = 1.0- 2.5 v, v in = 3.3 v 2.4 vdc ramp from lower voltage, v out = 3.3 v, v in = 5.0 v 3.5 c i input capacitance 20 f p ii input idling power i o = 0 a, v i = 5.5 v 680 mw p rc input stand-by power (rc active) non operation, v i = 5 v 7.5 mw v i ac input ripple 1) 20 hz ... 5 mhz, i o max, v i = 5 v 400 mv
� en/lzt 146 055 r4a ? ericsson power modules, march 2007 pmc 4518t ws datasheet characteristics random vibration jesd 22-b103-b frequency acceleration density 2 ... 500 hz 0.008 ... 0.2 g 2 /hz sinusoidal vibration jesd 22-b103-b frequency acceleration 10 ... 1000 hz 10 g mechanical shock (half sinus) jesd 22-b104-b peak acceleration duration 200 g 1.5 ms lead integrity jesd 22-b105-c weight of 1000 g all terminals temperature cycling jesd 22-a104-b temperature number of cycles -40 ... +125 ?c 300 accelerated damp heat jesd 22-a101-b temperature humidity duration bias +85 ?c 85 % rh 1000 hours max input voltage solderability iec 60068-2-54 (aged according to jesd 22- a101-b, 240h no bias) solder immersion depth time for onset of wetting wetting force 1 mm < 4 s > 100 mn/m cold (in operation) iec 60068-2-1a, test a d temperature duration -45 ?c 72 h high temperature storage jesd 22-a103-b temperature duration +125 ?c 1000 h product qualification specification
� en/lzt 146 055 r4a ? ericsson power modules, march 2007 pmc 4518t ws datasheet ericsson power modules dc/dc converters and dc/dc regulators are designed in accordance with safety standards iec/en/ul 60 950, safety of information technology equipment. iec/en/ul60950 contains requirements to prevent injury or damage due to the following hazards: ? electrical shock ? energy hazards ? fire ? mechanical and heat hazards ? radiation hazards ? chemical hazards on-board dc-dc converters are defined as component power supplies. as components they cannot fully comply with the provisions of any safety requirements without conditions of acceptability. it is the responsibility of the installer to ensure that the final product housing these components complies with the requirements of all applicable safety standards and directives for the final product. component power supplies for general use should comply with the requirements in iec60950, en60950 and ul60950 safety of information technology equipment. there are other more product related standards, e.g. iec61204-7 safety standard for power supplies", ieee802.3af ethernet lan/man data terminal equipment power, and ets300132-2 power supply interface at the input to telecommunications equipment; part 2: dc, but all of these standards are based on iec/en/ul60950 with regards to safety. ericsson power modules dc/dc converters and dc/dc regulators are ul 60 950 recognized and certified in accordance with en 60 950. the flammability rating for all construction parts of the products meets ul 94v-0. the products should be installed in the end-use equipment, in accordance with the requirements of the ultimate application. normally the output of the dc/dc converter is considered as selv (safety extra low voltage) and the input source must be isolated by minimum double or reinforced insulation from the primary circuit (ac mains) in accordance with iec/en/ul 60 950. safety specification isolated dc/dc converters. the input voltage to the dc/dc regulator is selv (safety extra low voltage) and the output remains selv under normal and abnormal operating conditions. it is recommended that a slow blow fuse with a rating twice the maximum input current per selected product be used at the input of each dc/dc regulator. non-isolated dc/dc regulators. 24 v dc systems. the input voltage to the dc/dc converter is selv (safety extra low voltage) and the output remains selv under normal and abnormal operating conditions. 48 and 60 v dc systems. if the input voltage to ericsson power modules dc/dc converter is 75 v dc or less, then the output remains selv (safety extra low voltage) under normal and abnormal operating conditions. single fault testing in the input power supply circuit should be performed with the dc/dc converter connected to demonstrate that the input voltage does not exceed 75 v dc. if the input power source circuit is a dc power system, the source may be treated as a tnv2 circuit and testing has demonstrated compliance with selv limits and isolation requirements equivalent to basic insulation in accordance with iec/en/ul 60 950. it is recommended that a fast blow fuse with a rating twice the maximum input current per selected product be used at the input of each dc/dc converter. if an input filter is used in the circuit the fuse should be placed in front of the input filter. in the rare event of a component problem in the input filter or in the dc/dc converter that imposes a short circuit on the input source, this fuse will provide the following functions: ? isolate the faulty dc/dc converter from the input power source so as not to affect the operation of other parts of the system. ? protect the distribution wiring from excessive current and power loss thus preventing hazardous overheating. the galvanic isolation is verified in an electric strength test. the test voltage (v iso ) between input and output is 1500 vdc or 2250 vdc for 60 seconds (refer to product specification). leakage current is less than 1a at nominal input voltage. general information.
� en/lzt 146 055 r4a ? ericsson power modules, march 2007 pmc 4518t ws datasheet characteristics conditions output unit min typ max v oi output voltage adjusted setting t ref = +25 c, v i nom, i o max, r adj 80 k ? 0.98 1.00 1.02 v v o output voltage tolerance band i o = 0.01...1.0 x i o max 0.97 1.03 v idling voltage i o = 0 0.98 1.02 v line regulation v i min ... v i max, i o max 11 mv load regulation i o = 0.01...1.0 x i o max, v i nom 10 mv v tr load transient voltage deviation load step = 0.25 ... 0.75 x i o max, di/dt = 5 a/s, c o = 150 f, v i = 3.3 v 120 mv t tr load transient recovery time 60 s t coeff temperature coefficient t ref = -30 ... +90 c, i o max -0.1 0 +0.1 mv/c t s start-up time from v i connected to v o = 0.9 x v oi , i o = 0.1 ...1.0 x i o max, v i nom 8.5 ms t r ramp-up time 0.1...0.9 x v o , i o = 0.1 ...1.0 x i o max, v i nom 4 ms t r fall time, v o x 0.1 i o = i o max, v i nom 0.2 ms t r fall time, v o x 0.1 i o = 0 a, v i nom 5 s t rc off rc shut-down time to v o x 0.1 i o = i o max, v i nom 0.2 ms t rc on rc start-up time to v o x 0.9 i o = i o max, v i nom 8 ms t rc rc fall time, v o x 0.1 ... 0.9 i o = 0 a, v i nom 10 s i o output current 0 16 a p o max max output power at v o = v onom 16 w i lim current limit threshold t ref < t ref max 22 28 35 a v oac output ripple 20 hz ... 5 mhz, i o max 10 20 mv p-p efficiency - 50% load i o = 0.5 x i o max, v i = 5 v 88.6 % efficiency - 100% load i o = i o max, v i = 5 v 84.4 86 % p d power dissipation i o = i o max, v i = 5 v 2.6 3.0 w fo switching frequency i o = 0 ... 1.0 x i o max 250 300 350 khz i sense remote sense current 8 ma i i static input current v i = 3.0 v, i o = i o max, t ref = 25 c 6.3 a mtbf predicted reliability t ref = 40 c 6 million hours t ref = -30 ... +90 c, v i = 3.0 ... 5.5 v unless otherwise specified. input filter 2 x 22 f, output filter 1 x 150 f typ values specified at: t ref = +25 c and v i nom. i o max = 16 a. note: +sense connected to +out adjusted to 1.0 v out - data
� en/lzt 146 055 r4a ? ericsson power modules, march 2007 pmc 4518t ws datasheet output current derating at � v input start-up output voltage vs. load current. available load current vs. ambient air temperature and airflow at vin = 5 v. see conditions on page 27. start-up at i o = 16 a resistive load at t ref = +25 c, vin = 3.3 v. start enabled by connecting v in . top trace: output voltage (0.5 v/div.). bottom trace: input voltage (2 v/div.). time scale: 2 ms/div. efficiency power dissipation output characteristics adjusted to 1.0 v out - typical characteristics efficiency vs. load current and input voltage at t ref = +25 c 0 2 4 6 8 10 12 14 16 70 75 80 85 90 95 [a] [%] 3.0 v 3.3 v 5.0 v 5.5 v �� �� �� �� �� ���� ���� ���� ���� ���
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� en/lzt 146 055 r4a ? ericsson power modules, march 2007 pmc 4518t ws datasheet turn off output ripple transient with 1�0 f output capacitor output voltage response to load current step-change (4-12-4 a) at t ref =+25 c, vin = 3.3 v. di/dt = 5a/ s top trace: output voltage (ac) (100 mv/div.). bottom trace: load current (dc) (10 a/div.) time scale: 0.1 ms/div. transient with �00 f output capacitor output voltage response to load current step-change (4-12-4 a) at t ref =+25 c, vin = 3.3 v. di/dt = 5a/ s top trace: output voltage (ac) (100 mv/div.). bottom trace: load current (dc) (10 a/div.) time scale: 0.1 ms/div. output voltage ripple (20mv/div.) at t ref =+25 c, vin=3.3 v, i o =16 a resistive load. band width=5mhz. time scale: 2 s / div. turn-off at i o =16 a resistive load at t ref =+25 c, vin=3.3 v. turn-off enabled by disconnecting v in . top trace: output voltage (0.5 v/div.). bottom trace: input voltage (2 v/div.). time scale: 2 ms/div. adjusted to 1.0 v out - typical characteristics general conditions: input filter 2 x 22 f, output filter 1 x 150 f
10 en/lzt 146 055 r4a ? ericsson power modules, march 2007 pmc 4518t ws datasheet t ref = -30 ... +90 c, v i = 3.0 ...5.5 v unless otherwise specified. input filter 2 x 22 f, output filter 1 x 150 f typ values specified at: t ref = +25 c and v i nom, i o max = 16 a. note: +sense connected to +out adjusted to 1.� v out - data characteristics conditions output unit min typ max v oi output voltage adjusted setting t ref = +25 c, v i nom, i o max, r adj 42 k ? 1.176 1.20 1.224 v v o output voltage tolerance band i o = 0.01...1.0 x i o max 1.164 1.236 v idling voltage i o = 0 1.18 1.22 v line regulation v i min ... v i max, i o max 11 mv load regulation i o = 0.01...1.0 x i o max, v i nom 10 mv v tr load transient voltage deviation load step = 0.25 ... 0.75 x i o max, di/dt = 5 a/s, c o = 150 f, v i = 3.3 v 140 mv t tr load transient recovery time 60 s t coeff temperature coefficient t ref = -30 ... +90c, i o max -0.1 0 +0.1 mv/c t s start-up time from v i connected to v o = 0.9 x v oi , i o = 0.1 ...1.0 x i o max, v i nom 8.5 ms t r ramp-up time 0.1...0.9 x v o , i o = 0.1 ...1.0 x i o max, v i nom 4 ms t r fall time, v o x 0.1 i o = i o max, v i nom 0.2 ms t r fall time, v o x 0.1 i o = 0 a, v i nom 5 s t rc off rc shut-down time to v o x 0.1 i o = i o max, v i nom 0.2 ms t rc on rc start-up time to v o x 0.9 i o = i o max, v i nom 8 ms t rc rc fall time, v o x 0.1 ... 0.9 i o = 0 a, v i nom 5 s i o output current 0 16 a p o max max output power at v o = v onom 19.2 w i lim current limit threshold t ref < t ref max 22 28 35 a v oac output ripple 20 hz ... 5 mhz, i o max 10 20 mv p-p efficiency - 50% load i o = 0.5 x i o max, v i = 5 v 90.1 % efficiency - 100% load i o = i o max, v i = 5 v 86.2 87.8 % p d power dissipation i o = i o max, v i = 5 v 2.7 3.1 w fo switching frequency i o = 0 ... 1.0 x i o max 250 300 350 khz i sense remote sense current 8 ma i i static input current v i = 3.0 v, i o = i o max, t ref = 25 c 7.5 a mtbf predicted reliability t ref = 40 c 6 million hours
11 en/lzt 146 055 r4a ? ericsson power modules, march 2007 pmc 4518t ws datasheet output current derating at � v input output characteristic start-up output voltage vs. load current. available load current vs. ambient air temperature and airflow at vin = 5 v. see conditions on page 27. start-up at i o = 16 a resistive load at t ref = +25 c, vin = 3.3 v. start enabled by connecting v in . top trace: output voltage (0.5 v/div.). bottom trace: input voltage (2 v/div.). time scale: 2 ms/div. efficiency power dissipation adjusted to 1.� v - typical characteristics efficiency vs. load current and input voltage at t re = +25 c �� �� �� �� �� ���� ���� ���� ���� ���� ���� ���� ���� ���� ���� �<�"�> �<���> ���������7 ���������7 ���������7 ���������7 �� �� �� �� �� ���� ���� ���� ���� �������� �������� �������� �������� �������� �<�"�> �<�7�> ���������7 ���������7 ���������7 ���������7 �� �� �� �� �� ���� ���� ���� ���� �� �� �� �� �� �<�"�> �<�8�> ���������7 ���������7 ���������7 ���������7 dissipated power vs. load current and input voltage at t ref = +25 c general conditions: input filter 2 x 22 f, output filter 1 x 150 f output current derating at �.� v input available load current vs. ambient air temperature and airflow at vin = 3.3 v. see conditions on page 27. ���� ���� ���� ���� ������ ������ ������ �� �� �� �� �� ���� ���� ���� ���� �<�?�$�> �<�"�> ���������n���t��� ���������m�g�n�
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1� en/lzt 146 055 r4a ? ericsson power modules, march 2007 pmc 4518t ws datasheet turn off output ripple transient with 1�0 f output capacitor output voltage response to load current step-change (4-12-4 a) at t ref =+25 c, vin = 3.3 v. di/dt = 5a/ s top trace: output voltage (ac) (100 mv/div.). bottom trace: load current (dc) (10 a/div.) time scale: 0.1 ms/div. transient with �00 f output capacitor output voltage response to load current step-change (4-12-4 a) at t ref =+25 c, vin = 3.3 v. di/dt = 5a/ s top trace: output voltage (ac) (100 mv/div.). bottom trace: load current (dc) (10 a/div.) time scale: 0.1 ms/div. output voltage ripple (20mv/div.) at t ref =+25 c, vin=3.3 v, i o =16 a resistive load. band width=5mhz. time scale: 2 s / div. turn-off at i o =16 a resistive load at t ref =+25 c, vin=3.3 v. turn-off enabled by disconnecting v in . top trace: output voltage (0.5 v/div.). bottom trace: input voltage (2 v/div.). time scale: 2 ms/div. adjusted to 1.� v - typical characteristics general conditions: input filter 2 x 22 f, output filter 1 x 150 f
1� en/lzt 146 055 r4a ? ericsson power modules, march 2007 pmc 4518t ws datasheet characteristics conditions output unit min typ max v oi output voltage adjusted setting t ref = +25 c, v i nom, i o max, r adj 23 k ? 1.47 1.5 1.53 v v o output voltage tolerance band i o = 0.01...1.0 x i o max 1.455 1.545 v idling voltage i o = 0 1.48 1.52 v line regulation v i min ... v i max, i o max 11 mv load regulation i o = 0.01...1.0 x i o max, v i nom 10 mv v tr load transient voltage deviation load step = 0.25 ... 0.75 x i o max, di/dt = 5 a/s, c o = 150 f, v i = 3.3 v 120 mv t tr load transient recovery time 60 s t coeff temperature coefficient t ref = -30 ... +90 c, i o max -0.1 0 +0.1 mv/c t s start-up time from v i connected to v o = 0.9 x v oi , i o = 0.1 ...1.0 x i o max, v i nom 8.5 ms t r ramp-up time 0.1...0.9 x v o , i o = 0.1 ...1.0 x i o max, v i nom 4 ms t r fall time, v o x 0.1 i o = i o max, v i nom 0.2 ms t r fall time, v o x 0.1 i o = 0 a, v i nom 5 s t rc off rc shut-down time to v o x 0.1 i o = i o max, v i nom 0.2 ms t rc on rc start-up time to v o x 0.9 i o = i o max, v i nom 8 ms t rc rc fall time, v o x 0.1 ... 0.9 i o = 0 a, v i nom 5 s i o output current 0 16 a p o max max output power at v o = v onom 24 w i lim current limit threshold t ref < t ref max 22 28 35 a v oac output ripple 20hz ... 5mhz, i o max 10 20 mv p-p efficiency - 50% load i o = 0.5 x i o max, v i = 5 v 91.6 % efficiency - 100% load i o = i o max, v i = 5 v 88.3 89.9 % p d power dissipation i o = i o max, v i = 5 v 2.7 3.2 w fo switching frequency i o = 0 ... 1.0 x i o max 250 300 350 khz i sense remote sense current 8 ma i i static input current v i = 3.0 v, i o = i o max, t ref = 25 c 9.0 a mtbf predicted reliability t ref = 40 c 6 million hours t ref = -30 ... +90 c, v i = 3.0 ...5.5 v unless otherwise specified. input filter 2 x 22 f, output filter 1 x 150 f typ values specified at: t ref = +25 c and v i nom. i o max = 16 a. note: +sense connected to +out adjusted to 1.� v out - data
1� en/lzt 146 055 r4a ? ericsson power modules, march 2007 pmc 4518t ws datasheet output current derating at � v input output characteristic start-up output voltage vs. load current. available load current vs. ambient air temperature and airflow at vin = 5 v. see conditions on page 27. �� �� �� �� �� ���� ���� ���� ���� �������� �������� �������� �������� �������� �<�"�> �<�7�> ���������7 ���������7 ���������7 ���������7 start-up at i o = 16 a resistive load at t ref = +25 c, vin = 3.3 v. start enabled by connecting v in . top trace: output voltage (0.5 v/div.). bottom trace: input voltage (2 v/div.). time scale: 2 ms/div. efficiency power dissipation adjusted to 1.�v out - typical characteristics efficiency vs. load current and input voltage at t ref = +25 c �� �� �� �� �� ���� ���� ���� ���� ���� ���� ���� ���� ���� ���� �<�"�> �<���> ���������7 ���������7 ���������7 ���������7 �� �� �� �� �� ���� ���� ���� ���� �� �� �� �� �� �<�"�> �<�8�> ���������7 ���������7 ���������7 ���������7 dissipated power vs. load current and input voltage at t ref = +25 c general conditions: input filter 2 x 22 f, output filter 1 x 150 f output current derating at �.� v input available load current vs. ambient air temperature and airflow at vin = 3.3 v. see conditions on page 27. ���� ���� ���� ���� ������ ������ ������ �� �� �� �� �� ���� ���� ���� ���� �<�?�$�> �<�"�> ���������n���t��� ���������m�g�n�
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1� en/lzt 146 055 r4a ? ericsson power modules, march 2007 pmc 4518t ws datasheet turn off output ripple transient with 1�0 f output capacitor output voltage response to load current step-change (4-12-4 a) at t ref =+25 c, vin = 3.3 v. di/dt = 5a/ s top trace: output voltage (ac) (100 mv/div.). bottom trace: load current (dc) (10 a/div.) time scale: 0.1 ms/div. transient with �00 f output capacitor output voltage response to load current step-change (4-12-4 a) at t ref =+25 c, vin = 3.3 v. di/dt = 5a/ s top trace: output voltage (ac) (100 mv/div.). bottom trace: load current (dc) (10 a/div.) time scale: 0.1 ms/div. output voltage ripple (20mv/div.) at t ref =+25 c, vin=3.3 v, i o =16 a resistive load. band width=5mhz. time scale: 2 s / div. turn-off at i o =16 a resistive load at t ref =+25 c, vin=3.3 v. turn-off enabled by disconnecting v in . top trace: output voltage (0.5 v/div.). bottom trace: input voltage (2 v/div.). time scale: 2 ms/div. adjusted to 1.�v out - typical characteristics general conditions: input filter 2 x 22 f, output filter 1 x 150 f
1� en/lzt 146 055 r4a ? ericsson power modules, march 2007 pmc 4518t ws datasheet t ref = C30+90 c, v i = 3.0 ... 5.5 v unless otherwise specified. input filter 2 x 22 f, output filter 1 x 150 f typ values specified at: t ref = +25 c and v i nom. i o max = 16 a. note: +sense connected to +out adjusted to 1.� v out - data characteristics conditions output unit min typ max v oi output voltage adjusted setting t ref = +25 c, v i nom, i o max, r adj 15 k ? 1.764 1.80 1.836 v v o output voltage tolerance band i o = 0.01...1.0 x i o max 1.746 1.854 v idling voltage i o = 0 1.78 1.82 v line regulation v i min ... v i max, i o max 11 mv load regulation i o = 0.01...1.0 x i o max, v i nom 10 mv v tr load transient voltage deviation load step = 0.25 ... 0.75 x i o max, di/dt = 5 a/s, c o = 150 f, v i = 3.3 v 140 mv t tr load transient recovery time 60 s t coeff temperature coefficient t ref = -30 ... +90 c, i o max -0.1 0 +0.1 mv/c t s start-up time from v i connected to v o = 0.9 x v oi , i o = 0.1 ...1.0 x i o max, v i nom 8.5 ms t r ramp-up time 0.1...0.9 x v o , i o = 0.1 ...1.0 x i o max, v i nom 4 ms t r fall time, v o x 0.1 i o = i o max, v i nom 0.2 ms t r fall time, v o x 0.1 i o = 0 a, v i nom 5 s t rc off rc shut-down time to v o x 0.1 i o = i o max, v i nom 0.2 ms t rc on rc start-up time to v o x 0.9 i o = i o max, v i nom 8 ms t rc rc fall time, v o x 0.1 ... 0.9 i o = 0 a, v i nom 5 s i o output current 0 16 a p o max max output power at v o = v onom 28.8 w i lim current limit threshold t ref < t ref max 22 28 35 a v oac output ripple 20 hz ... 5 mhz, i o max 14 24 mv p-p efficiency - 50% load i o = 0.5 x i o max, v i = 5 v 93 % efficiency - 100% load i o = i o max, v i = 5 v 89.5 91.5 % p d power dissipation i o = i o max, v i = 5 v 2.6 3.4 w fo switching frequency i o = 0 ... 1.0 x i o max 250 300 350 khz i sense remote sense current 8 ma i i static input current v i = 3.0 v, i o = i o max, t ref = 25 c 11.1 a mtbf predicted reliability t ref = 40 c 6 million hours
1� en/lzt 146 055 r4a ? ericsson power modules, march 2007 pmc 4518t ws datasheet efficiency output current derating at �.� v input output current derating at � v input adjusted to 1.� v - typical characteristics output characteristic start-up output voltage vs. load current. available load current vs. ambient air temperature and airflow at vin = 5 v. see conditions on page 27. efficiency vs. load current and input voltage at t ref = +25 c �� �� �� �� �� ���� ���� ���� ���� ���� ���� ���� ���� ���� ���� �<�"�> �<���> ���������7 ���������7 ���������7 ���������7 �� �� �� �� �� ���� ���� ���� ���� �������� �������� �������� �������� �������� �<�"�> �<�7�> ���������7 ���������7 ���������7 ���������7 start-up at i o = 16 a resistive load at t ref = +25 c, vin = 3.3 v. start enabled by connecting v in . top trace: output voltage (0.5 v/div.). bottom trace: input voltage (2 v/div.). time scale: 2 ms/div. available load current vs. ambient air temperature and airflow at vin = 3.3 v. see conditions on page 27. power dissipation �� �� �� �� �� ���� ���� ���� ���� �� �� �� �� �� �<�"�> �<�8�> ���������7 ���������7 ���������7 ���������7 dissipated power vs. load current and input voltage at t ref =+25 c ���� ���� ���� ���� ������ ������ ������ �� �� �� �� �� ���� ���� ���� ���� �<�?�$�> �<�"�> ���������n���t��� ���������m�g�n�
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1� en/lzt 146 055 r4a ? ericsson power modules, march 2007 pmc 4518t ws datasheet turn off output ripple adjusted to 1.� v out - typical characteristics transient with 1�0 f output capacitor output voltage response to load current step-change (4-12-4 a) at t ref =+25 c, vin = 3.3 v. di/dt = 5a/ s top trace: output voltage (ac) (100 mv/div.). bottom trace: load current (dc) (10 a/div.) time scale: 0.1 ms/div. transient with �00 f output capacitor output voltage response to load current step-change (4-12-4 a) at t ref =+25 c, vin = 3.3 v. di/dt = 5a/ s top trace: output voltage (ac) (100 mv/div.). bottom trace: load current (dc) (10 a/div.) time scale: 0.1 ms/div. output voltage ripple (20mv/div.) at t ref =+25 c, vin=3.3 v, i o =16 a resistive load. band width=5mhz. time scale: 2 s / div. turn-off at i o =16 a resistive load at t ref =+25 c, vin=3.3 v. turn-off enabled by disconnecting v in . top trace: output voltage (0.5 v/div.). bottom trace: input voltage (2 v/div.). time scale: 2 ms/div. general conditions: input filter 2 x 22 f, output filter 1 x 150 f
1� en/lzt 146 055 r4a ? ericsson power modules, march 2007 pmc 4518t ws datasheet characteristics conditions output unit min typ max v oi output voltage adjusted setting t ref = +25 c, v i nom, i o max, r adj 7 k ? 2.45 2.5 2.55 v v o output voltage tolerance band i o = 0.01...1.0 x i o max 2.425 2.575 v idling voltage i o = 0 2.48 2.52 v line regulation v i min ... v i max, i o max 11 mv load regulation i o = 0.01...1.0 x i o max, v i nom 10 mv v tr load transient voltage deviation load step = 0.25 ... 0.75 x i o max, di/dt = 5 a/s, c o = 150 f, v i = 3.3 v 200 mv t tr load transient recovery time 60 s t coeff temperature coefficient t ref = -30 ... +90 c, i o max -0.1 0 +0.1 mv/c t s start-up time from v i connected to v o = 0.9 x v oi , i o = 0.1 ...1.0 x i o max, v i nom 8.5 ms t r ramp-up time 0.1...0.9 x v o , i o = 0.1 ...1.0 x i o max, v i nom 4 ms t r fall time, v o x 0.1 i o = i o max, v i nom 0.2 ms t r fall time, v o x 0.1 i o = 0 a, v i nom 5 s t rc off rc shut-down time to v o x 0.1 i o = i o max, v i nom 0.2 ms t rc on rc start-up time to v o x 0.9 i o = i o max, v i nom 8 ms t rc rc fall time, v o x 0.1 ... 0.9 i o = 0 a, v i nom 5 s i o output current 0 16 a p o max max output power at v o = v onom 40 w i lim current limit threshold t ref < t ref max 22 28 35 a v oac output ripple 20 hz ... 5 mhz, i o max 20 35 mv p-p efficiency - 50% load i o = 0.5 x i o max, v i = 5 v 94.5 % efficiency - 100% load i o = i o max, v i = 5 v 92 93.9 % p d power dissipation i o = i o max, v i = 5 v 2.6 3.5 w fo switching frequency i o = 0 ... 1.0 x i o max 250 300 350 khz i sense remote sense current 8 ma i i static input current v i = 3.0 v, i o = i o max, t ref = 25 c 14.8 a mtbf predicted reliability t ref = 40 c 6 million hours t ref = -30 ... +90 c, v i = 3.0 ...5.5 v unless otherwise specified. input filter 2 x 22 f, output filter 1 x 150 f typ values specified at: t ref = +25 c and v i nom. i o max = 16 a. note: +sense connected to +out adjusted to �.� v out - data
�0 en/lzt 146 055 r4a ? ericsson power modules, march 2007 pmc 4518t ws datasheet output current derating at � v input output characteristic start-up output voltage vs. load current. available load current vs. ambient air temperature and airflow at vin = 5 v. see conditions on page 27. �� �� �� �� �� ���� ���� ���� ���� ���
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�1 en/lzt 146 055 r4a ? ericsson power modules, march 2007 pmc 4518t ws datasheet turn off output ripple transient with 1�0 f output capacitor output voltage response to load current step-change (4-12-4 a) at t ref =+25 c, vin = 3.3 v. di/dt = 5a/ s top trace: output voltage (ac) (100 mv/div.). bottom trace: load current (dc) (10 a/div.) time scale: 0.1 ms/div. transient with �00 f output capacitor output voltage response to load current step-change (4-12-4 a) at t ref =+25 c, vin = 3.3 v. di/dt = 5a/ s top trace: output voltage (ac) (100 mv/div.). bottom trace: load current (dc) (10 a/div.) time scale: 0.1 ms/div. output voltage ripple (20mv/div.) at t ref =+25 c, vin=3.3 v, i o =16 a resistive load. band width=5mhz. time scale: 2 s / div. turn-off at i o =16 a resistive load at t ref =+25 c, vin=3.3 v. turn-off enabled by disconnecting v in . top trace: output voltage (1 v/div.). bottom trace: input voltage (2 v/div.). time scale: 2 ms/div. adjusted to �.� v out - typical characteristics general conditions: input filter 2 x 22 f, output filter 1 x 150 f
�� en/lzt 146 055 r4a ? ericsson power modules, march 2007 pmc 4518t ws datasheet t ref = -30 ... +90 c, v i = 3.8 ... 5.5 v unless otherwise specified. input filter 2 x 22 f, output filter 1 x 150 f typ values specified at: t ref = +25 c and v i = 5.0 v. i o max = 16 a. note: +sense connected to +out adjusted to �.� v out - data characteristics conditions output unit min typ max v oi output voltage adjusted setting t ref = +25 c, v i > 3.8 v, i o max, r adj 3.1 k ? 3.234 3.3 3.366 v v o output voltage tolerance band i o = 0.1...1.0 x i o max 3.201 3.399 v idling voltage i o = 0 3.28 3.32 v line regulation v i = 5 v ... v i max, i o max 11 mv load regulation i o = 0.01...1.0 x i o max, v i = 5 v 10 mv v tr load transient voltage deviation load step = 0.25 ... 0.75 x i o max, di/dt = 5 a/s, c o = 150 f, v i = 5 v 140 mv t tr load transient recovery time 60 s t coeff temperature coefficient t ref = -30 ... +90 c, i o max -0.1 0 +0.1 mv/c t s start-up time from v i connected to v o = 0.9 x v oadj , i o = 0.1 ...1.0 x i o max, v i = 5 v 8.5 ms t r ramp-up time 0.1...0.9 x v o , i o = 0.1 ...1.0 x i o max, v i = 5 v 4 ms t r fall time, v o x 0.1 i o = i o max, v i = 5 v 0.2 ms t r fall time, v o x 0.1 i o = 0 a, v i = 5 v 5 s t rc off rc shut-down time to v o x 0.1 i o = i o max, v i = 5 v 0.2 ms t rc on rc start-up time to v o x 0.9 i o = i o max, v i = 5 v 8 ms t rc rc fall time, v o x 0.1 ... 0.9 i o = 0 a, v i = 5 v 5 s i o output current 0 16 a p o max max output power at v o = v onom 52.8 w i lim current limit threshold t ref < t ref max 22 28 35 a v oac output ripple 20 hz ... 5 mhz, i o max 25 40 mv p-p efficiency - 50% load i o = 0.5 x i o max, v i = 5 v 96 % efficiency - 100% load i o = i o max, v i = 5 v 93.5 95.4 % p d power dissipation i o = i o max, v i = 5 v 2.5 3.7 w fo switching frequency i o = 0 ... 1.0 x i o max 250 300 350 khz i sense remote sense current 8 ma i i static input current v i = 3.8 v, i o = i o max, t ref = 25 c 15.0 a mtbf predicted reliability t ref = 40 c 6 million hours
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turn off turn-off at i o =16 a resistive load at t ref =+25 c, vin = 5 v. turn-off enabled by disconnecting v in . top trace: output voltage (1 v/div.). bottom trace: input voltage (2 v/div.). time scale: 2 ms/div.
�� en/lzt 146 055 r4a ? ericsson power modules, march 2007 pmc 4518t ws datasheet output ripple transient with 1�0 f output capacitor output voltage response to load current step-change (4-12-4 a) at t ref = +25 c, vin = 5 v. di/dt = 5 a/ s top trace: output voltage (ac) (100 mv/div.). bottom trace: load current (dc) (10 a/div.) time scale: 0.1 ms/div. transient with �00 f output capacitor output voltage response to load current step-change (4-12-4 a) at t ref =+25 c, vin = 5 v. di/dt = 5a/ s top trace: output voltage (ac) (100 mv/div.). bottom trace: load current (dc) (10 a/div.) time scale: 0.1 ms/div. output voltage ripple (20mv/div.) at t ref = +25 c, vin = 5 v, i o = 16 a resistive load. band width = 5 mhz. time scale: 2 s / div. adjusted to �.� v out - typical characteristics general conditions: input filter 2 x 22 f, output filter 1 x 150 f
�� en/lzt 146 055 r4a ? ericsson power modules, march 2007 pmc 4518t ws datasheet emc specification layout recommendation the radiated emi performance of the dc/dc regulator will be optimised by including a ground plane in the pcb area under the dc/dc regulator. this approach will return switching noise to ground as directly as possible, with improvements to both emission and susceptibility. operating information all pmc 4000 series dc/dc regulators have a positive re - mote sense pin that can be used to compensate for moder - ate amounts of resistance in the distribution system and al - low for voltage regulation at the load or other selected point. the remote sense line will carry very little current and does not need a large cross sectional area. however, the sense line on the pcb should be located close to a ground trace or ground plane. the remote sense circuitry will compensate for up to 10% voltage drop between the sense voltage and the voltage at the output pins from v o nom. if the remote sense is not needed the sense pin should be left open. remote sense �� �� �� �� �� �� �� �� �� �� �� �� �� �� �� �- �f �w �f �m �� �< �e �# �? �" �> �� �� �� �l �� �� �� �l �� �� �� �l �� �. �� �. �� �. �� �. �� �. �� �� �. �� �� �. �' �s �f �r �v �f �o �d �z �� �< �) �[ �> �� rc regulator condition min typ max unit low level referenced to gnd off -0.3 0.3 v open on 1.7 5 v remote control (rc) the rc pin may be used to turn on or turn off the regulator using a suitable open collector function. turn off is achieved by connecting the rc pin to ground. the regulator will run in normal operation when the rc pin is left open. r c + i n m o d u l e + i n g n d
�� en/lzt 146 055 r4a ? ericsson power modules, march 2007 pmc 4518t ws datasheet output voltage (v) resistor (ohm) 0.75 open 1.0 79.691 k 1.2 41.817 k 1.5 22.990 k 1.8 14.949 k 2.5 6.919 k 3.3 3.145 k input and output impedance the impedance of both the power source and the load will interact with the impedance of the dc/dc regulator. it is most important to have a low characteristic impedance, both at the input and output, as the regulators have a low energy storage capability. use capacitors across the input if the source inductance is greater than 4.7 h. suitable input capacitors are 22 f - 220 f low esr ceramics. operating information output voltage adjust (v adj ) the output voltage can be set by means of an external resistor, connected to the v adj pin. nominal output voltage 0.75 v is set by leaving the v adj pin open. adjustment can only be made to increase the output voltage setting. to increase: connect a resistor between (vadj) and (gnd). the output voltage increases with decreasing resistor value as shown in the table below. note that the maximum output voltage 3.63 v may not be exceeded. r ext up (kohm) = (21.007 / (v o - 0.75225)) - 5.1 circuit configuration for output voltage adjust i n c r e a s e + o u t g n d v a d j l o a d r a d j s e n s e current limit protection the pmc 4000 series dc/dc regulators include current limiting circuitry that allows them to withstand continuous overloads or short circuit conditions on the output. the cur - rent limit is of hick-up mode type. the regulator will resume normal operation after removal of the overload. the load distribution system should be designed to carry the maximum output short circuit current specified. minimum required external capacitors external input capacitors are required to increase the lifetime of the internal capacitors and to further reduce the input ripple. a minimum of 44 f external input capacitance f external input capacitance f external input capacitance with low esr should be added. a minimum of 150 f external output capacitance , low f external output capacitance , low f external output capacitance , low esr, should be added for the converter to operate properly at full load. maximum capacitive load when powering loads with significant dynamic current requirements, the voltage regulation at the load can be improved by addition of decoupling capacitance at the load. the most effective technique is to locate low esr ceramic capacitors as close to the load as possible, using several capacitors to lower the total esr. these ceramic capacitors will handle short duration high-frequency components of dynamic load changes. in addition, higher values of capacitors (electrolytic capacitors) should be used to handle the mid-frequency components. it is equally important to use good design practice when configuring the dc distribution system. low resistance and low inductance pcb layouts and cabling should be used. remember that when using remote sensing, all resistance (including the esr), inductance and capacitance of the distribution system is within the feedback loop of the regulator. this can affect on the regulators compensation and the resulting stability and dynamic response performance. very low esr and high capacitance must be used with care. a rule of thumb is that the total capacitance must never exceed typically 500-700 f if only low esr (< 2 m ? ) ceramic capacitors are used. if more capacitance is needed, a combination of low esr type and electrolytic capacitors should be used, otherwise the stability will be affected. the pmc 4000 series regulator can accept up to 8 mf of capacitive load on the output at full load. this gives <500 f/a of i o . when using that large capacitance it is important to consider the selection of output capacitors; the resulting behavior is a combination of the amount of capacitance and esr.
�� en/lzt 146 055 r4a ? ericsson power modules, march 2007 pmc 4518t ws datasheet operating information a combination of low esr and output capacitance exceeding 8 mf can cause the regulator into over current protection mode (hick-up) due to high start up current. the output filter must therefore be designed without exceeding the above stated capacitance levels if the esr is lower than 30-40 m ? . parallel operation input undervoltage lockout the pmc 4000 series dc/dc regulators are equipped with a lockout function for low input voltage.when the input voltage is below the undervoltage lockout limit of the regulator it will shut off. when the input voltage increases above the lockout level the regulator will turn on. the pmc 4000 series dc/dc regulators can be connected in parallel with a common input. paralleling is accomplished by connecting the output voltage pins directly and using a load sharing device on the input. layout considerations should be made to avoid load imbalance. for more details on paralleling, please consult your local applications support.
�� en/lzt 146 055 r4a ? ericsson power modules, march 2007 pmc 4518t ws datasheet thermal considerations general the pmc 4000 series dc/dc regulators are designed to operate in a variety of thermal environments, however sufficient cooling should be provided to help ensure reliable operation. heat is removed by conduction, convection and radiation to the surrounding environment. increased airflow enhances the heat transfer via convection. proper cooling can be verified by measuring the temperature at the reference point (t ref ). calculation of ambient temperature by using the thermal resistance the maximum allowed ambient temperature can be calculated. a. the powerloss is calculated by using the formula ((1/ ) - 1) output power = power losses. = efficiency of regulator. example: 95% = 0.95 b. find the value of the thermal resistance r th tref-a in the dia - gram by using the airflow speed at the module. take the ther - mal resistance powerloss to get the temperature increase. thermal resistance vs. airspeed measured at the regulator. c. max allowed calculated ambient temperature is: max t ref of dc/dc regulator - temperature increase. example: 1.8 v output at 1m/s, full load, 3.3 v in: b. 2.7 w 7.5 c/w = 20.3 c c. 115 c - 20.3 c = max ambient temperature is 94.7 c the real temperature will be dependent on several factors, like pcb size and type, direction of airflow, air turbulence etc. it is recommended to verify the temperature by testing. a. ((1/0.915) - 1) 28.8 w = 2.7 w t r e f the pmc 4000 thermal testing is performed with the product mounted on an fr4 board 254 254 mm with 8 254 mm with 8 254 mm with 8 layers of 35 m copper. ���
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�� en/lzt 146 055 r4a ? ericsson power modules, march 2007 pmc 4518t ws datasheet the pmc series dc/dc regulators are intended for reflow soldering processes. extra precautions must be taken when reflow soldering the module. neglecting the soldering information given below may result in permanent damage or significant degradation of the power module performance. no responsibility is assumed if these recommendations are not strictly followed. the module can be reflow soldered using vapour phase reflow (vpr) or forced convection reflow. to ensure proper soldering of the regulators the temperature should be monitored on interconnection pin gnd. the interconnection gnd is considered as representative due to the heavy copper path characterisation. a thermocouple can be attached to the pin gnd by means of a suitable adhesive or heat conductive paste, see the mechanical data on page 4. the reflow profile should be optimised to avoid solder paste drying and overheating of the module. most important is to ensure that the interconnection pins on the coldest aera reach sufficient soldering temperature for sufficiently long time. a sufficiently extended soak time is recommended to ensure an even temperature throughout the pcb, for both small and large components. to reduce the risk of overheating the power module, it is also recommended to minimise the time in reflow as much as possible. for lead free solder processes (solder melting point 217c), the pmc series is qualified for msl 1 according to jedec standard j-std-020c. during reflow, the module temperature must not exceed +245 c at any time. soldering information for conventional sn-pb solder processes (solder melting point 179c -183c), the pmc series is qualified for msl 1 according to jedec standard j-std-020c. during reflow, the module temperature must not exceed +225 c at any time. 0 70 140 210 280 350 0 50 100 150 200 250 300 [c] time reflow ramp-up cooling zone preheat max 3/s soak zone (150c-200c) 60-180s reflow zone max pin temperature @ 225c (low temp solder) @ 245c (high temp solder) (solid line)-high temperature solder (dashed line)-low temperature solder ramp up, ramp-down rate pre-heat soak zone reflow zone cooling max 3 ?c/s max 0.5 ?c/s max 3 ?c/s max 4 ?c/s temperature interval, time soak zone reflow zone 130 -170?c, 60-120 s above 183 ?c, 30-80 s peak temperature, time reflow zone 210 -225?c, 10-30 s low temperature solder - reflow profile ramp up, ramp-down rate pre-heat soak zone reflow zone cooling max 3 ?c/s max 0.5 ?c/s max 3 ?c/s max 4 ?c/s temperature interval, time soak zone reflow zone 150 -200?c, 60-180 s above 220 ?c, 30-80 s peak temperature, time reflow zone 235 -245?c, 10-30 s high temperature solders - reflow profile pin temperatures, graph of the 4-zones of reflow soldering.
�0 en/lzt 146 055 r4a ? ericsson power modules, march 2007 pmc 4518t ws datasheet reliability the mean time between failure (mtbf) of the pmc 4000 series dc/dc regulator family is calculated to be greater than 6 million hours at full output power and a reference temperature of +40 c using telcordia sr 332. the pmc 4000 series regulators are delivered in antistatic tape & reel (eia standards 481-2). tape & reel specification: material: conductive tape width: 44 mm [1.73 in.] tape pitch: 24 mm [0.95 in.] total pocket height: 9.1 mm [0.36 in.] reel diameter: 330 mm [13 in.] reel capacity: 200 pieces full reel weight: typ. 2.0 kg ���������<���������> ���������<���������> �1�*�$�,���1�0�*�/�5 �'�f�f�e���e�j�s�f�d�u�j�p�o �%�j�n�f�o�t�j�p�o�t���j�o���n�n���<�j�o�d�i�> �5�b�q�f���m�f�b�e�f�s���n�j�o�������������<�����> �5�b�q�f���u�s�b�j�m�f�s���n�j�o�������������<�������> �4�&�$�5�*�0�/���"���" �" �q�j�u�d�i�������������<���������> �3�������������<���������> ���������� �<���������> �?�������� �<���������> �" ���������� ��� �<���������� ����������� �> �����������<���������> �������������<�������> �������� �<�����������> �������� �<���������> delivery package information compatibility with rohs requirements the products are compatible with the relevant clauses and requirements of the rohs directive 2002/95/ec and have a maximum concentration value of 0.1% by weight in homogeneous materials for lead, mercury, hexavalent chromium, pbb and pbde and of 0.01% by weight in homogeneous materials for cadmium. exemptions in the rohs directive utilized in ericsson power modules products include: ? lead in high melting temperature type solder (used to solder the die in semiconductor packages) ? lead in glass of electronics components and in electronic ceramic parts (e.g. fill material in chip resistors) ? lead as an alloying element in copper alloy containing up to 4% lead by weight (used in connection pins made of brass)
�1 en/lzt 146 055 r4a ? ericsson power modules, march 2007 pmc 4518t ws datasheet sales offices and contact information company headquarters ericsson power modules ab lm ericssons v?g 30 se-126 25 stockholm sweden phone: +46-8-568-69620 fax: +46-8-568-69599 china ericsson simtek electronics co. 33 fuhua road jiading district shanghai 201 818 china phone: +86-21-5990-3258 fax: +86-21-5990-0188 north and south america ericsson inc. power modules 6300 legacy dr. plano, tx 75024 usa phone: +1-972-583-5254 +1-972-583-6910 fax: +1-972-583-7839 hong kong (asia pacific) ericsson ltd. 12/f. devon house 979 kings road quarry bay hong kong phone: +852-2590-2453 fax: +852-2590-7152 italy, spain (mediterranean) ericsson power modules ab via cadorna 71 20090 vimodrone (mi) italy phone: +39-02-265-946-07 fax: +39-02-265-946-69 all other countries contact company headquarters or visit our website: www.ericsson.com/powermodules information given in this data sheet is believed to be accurate and reliable. no responsibility is assumed for the consequences of its use nor for any infringement of patents or other rights of third parties which may result from its use. no license is granted by implication or otherwise under any patent or patent rights of ericsson power modules. these products are sold only according to ericsson power modules general conditions of sale, unless otherwise confirmed in writing. specifications subject to change without notice. germany, austria ericsson power modules ab mhlhauser weg 18 85737 ismaning germany phone: +49-89-9500-6905 fax: +49-89-9500-6911 japan ericsson power modules ab kimura daini building, 3 fl. 3-29-7 minami-oomachi, shinagawa-ka tokyo 140-0013 japan phone: +81-3-5733-5107 fax: +81-3-5753-5162
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