S101-084-S101-00 www.murata-ps.com 5.0v Input, 1.5 to 3.3v Output @ 7A This product is not fuse protected. User is responsible for providing system protection. Consult factory for application information. OBSOLETE PRODUCT Specifications * S101-05 INPUT SPECIFICATIONS Input voltage range External input capacitor 5.0V ± 10% Minimum 200μF with adequate ripple current rating Measured at +Vin pin See also note on pg 6 and chart on pg 4 OUTPUT SPECIFICATIONS 1.5V Standard setpoint accuracy varies ±1.3%. Contact factory for tighter tolerances. See note on pg 5 for trimming to different voltages. 1.8V Standard output voltages and output current 2.1V 2.5V 3.3V Output current 7A 100 LFM at 70°C Output Current up to 7A Load regulation ±0.4% 0 to 7A load 5.0V ± 10% input Line regulation FEATURES Regulation ±0.4% Line and Load Industry Standard Pin Configuration High Efficiency To 90% Remote Sense, Trim and Enable Short Circuit Protection MTBF 3.9 million hours ±0.4% Over specified input voltage range External output capacitor >150μF with maxESR = 100mΩ See also note on pg 6 Short circuit protection 200% of maximum rated current GENERAL SPECIFICATIONS Enable *** ON - open or high / OFF - low Efficiency 90% for 3.3V Isolation Non-isolated Switching frequency 300 kHz Approvals and Standards UL 94V-0 Protection Operating Temperature **** See efficiency curves on pg 4 Constant Fusing Unit is not fused. 0°C to 60°C Storage Temperature -40°C to 125°C Non-condensing MTBF 4.1 million hours Per RAC PRISM at 50°C ambient and 200 LFM * All specifications are typical at nominal input, full load at 25°C unless otherwise stated. *** Pull below 0.5V and sink greater than 1mA to disable the SIP; pull above 4V (do not exceed 12V) and source greater than 10μA or leave open to enable the SIP. **** The output capacitors must meet the max ESR = 100mΩ requirement over the operating temperature range. For full details go to www.murata-ps.com/rohs www.murata-ps.com email: [email protected] 29 Apr 2010 MDC_S101-084-S101-00.B01 Page 1 of 6 S101-084-S101-00 5.0v Input, 1.5 to 3.3v Output @ 7A PART NUMBER CODING S101 - 05 2 0 XYZ - B B Model Number Pin Length B = .145 inch (Standard) Input Voltage 05 = 5V Feature Options B = Remote Sense, Trim and Enable (Standard) 3 = Trim and Enable Mechanical Options 2 = Vertical Top Side Pins (Standard) Output Voltage XYZ = X.YZ Volts Set Point Tolerance 0 = Factory Standard (See Specifications) INITIAL SETPOINT TOLERANCE Setpoint Tolerance (±%) Initial Setpoint Tolerance for 5V input SIPs 3.5 3.0 2.5 2.0 1.5 1.0 0.0 1.0 2.0 3.0 4.0 5.0 6.0 Output Voltage (V) PIN ASSIGNMENT CONNECTOR J1 PIN FUNCTION 1 2 3 Remote Sense 4 VOUT 5 Ground CONNECTOR PIN FUNCTION VOUT 1 Ground VOUT 2 VIN J2 3 VIN 4 Empty 5 Trim 6 Enable www.murata-ps.com email: [email protected] 29 Apr 2010 MDC_S101-084-S101-00.B01 Page 2 of 6 S101-084-S101-00 5.0v Input, 1.5 to 3.3v Output @ 7A MECHANICAL DIMENSIONS 2.55 (64.77) MAX .540 (13.72) MAX 1 2 3 4 5 1 2 Top side J1 .100 (2.54) TYP J2 3 5 6 L ± .020 (5.08 ± .5) .025 (.62) SQ 1.400 (35.56) 1.800 (45.72) .30 (7.62) Mechanical Option 2 .360 MAX .218 MAX .072 MAX .03 Mech Option #2 (Standard) * Recommended Customer Hole Size 0.046 ±.003 with 0.070 pad both sides 1. Dimensions are in inches and (millimeters). 2. Tolerances: (unless otherwise noted) Inches .XX ± .020 .XXX ± .010 Pin: ± .002 www.murata-ps.com Millimeters .X ± 0.5 .XX ± 0.25 ± 0.05 email: [email protected] 29 Apr 2010 MDC_S101-084-S101-00.B01 Page 3 of 6 S101-084-S101-00 5.0v Input, 1.5 to 3.3v Output @ 7A EFFICIENCY CURVES AT 25°C Efficiency (%) 1.5V 95 90 85 80 75 70 65 60 4.5 V input 5.0 V input 1 2 3 4 5 6 7 5.5 V input Load curre nt (A) Efficiency (%) 3.3V 95 90 85 80 75 70 65 60 4.5 V input 5.0 V input 1 2 3 4 5 6 7 5.5 V input Load curre nt (A) INPUT RIPPLE CURRENT Required ripple current ratings required for input bulk capacitor. www.murata-ps.com email: [email protected] 29 Apr 2010 MDC_S101-084-S101-00.B01 Page 4 of 6 S101-084-S101-00 5.0v Input, 1.5 to 3.3v Output @ 7A RESISTOR TRIM EQUATIONS The S101 output voltage can be trimmed to a different value than the one set by the factory by using one external resistor. Check the following table for trimming range and use the appropriate trimming equation to calculate the value of the trim resistor. VSET VREF R8 (OHMS) 1.5V 1.3V 9760 R7 (OHMS) TRIM RANGE 63400 1.3V - 1.8V 1.8V 1.5V 10000 49900 1.5V - 2.1V 2.1V 1.7V 11500 48700 1.7V - 2.5V 2.5V 2.1V 12100 63400 2.1V - 3.3V 3.3V 2.5V 11500 35700 2.5V - 3.5V Trimming Up (VOutUp > VSet) Connect the Trim Up Resistor between the Trim pin (J1-5) and the Ground pin (J1-1). RTrimUp = 1 VOutUp - VRef 1 R8 * VRef R7 Trimming Down (VRef < VOut Down < VSet) Connect the Trim Down Resistor between the Trim pin (J1-5) and the Remote Sense pin (J1-3). If the sense pin is not present, use the Vout pin (J1-1 or J1-2 or J1-4). RTrimDown = 1 VRef 1 R7 VOutDown - VRef R8 Where: VSet: VOutUp: VOutDown: VRef: R7, R8: RTrimUp, RTrimDown: the output setpoint (output voltage set by the factory, with no trim) the desired output voltage (higher than VSet) the desired output voltage (lower than VSet, but not lower than VRef) see table see table the resistance value of the trimming resistor www.murata-ps.com email: [email protected] 29 Apr 2010 MDC_S101-084-S101-00.B01 Page 5 of 6 S101-084-S101-00 5.0v Input, 1.5 to 3.3v Output @ 7A External Capacitance for SIP Products A ll S IP p r o d u c ts r e q u ir e e x te r n a l c a p a c ita n c e to b e p la c e d o n th e s y s te m b o a r d th a t th e S IP w ill b e d e s ig n e d in to . T h is a p p lic a tio n n o te is a n a tte m p t to e x p la in h o w to tr a n s la te d a ta s h e e t in f o r m a tio n a n d a p p ly it to a s y s te m le v e l b o a r d d e s ig n . IN P U T C A P A C IT A N C E A lth o u g h in p u t c a p a c ita n c e v a lu e is n o t c r itic a l, th e in p u t c a p a c ito r s m u s t b e c a p a b le o f s to r in g f a ir ly la r g e a m o u n ts o f e n e r g y . T h is m e a n s , f o r e x a m p le , s m a ll c e r a m ic c a p a c ito r s w o u ld b e in a p p r o p r ia te . T h e p r im a r y c r ite r ia , th o u g h , f o r c h o o s in g th e in p u t c a p a c ito r s is A C r ip p le c u r r e n t r a tin g . T h e S IP d a ta s h e e t c o n ta in s a c h a r t s h o w in g r ip p le c u r r e n t v s . o u tp u t c u r r e n t ( o r o u tp u t p o w e r ) . T h e s y s te m d e s ig n e r d e te r m in e s th e m a x im u m S IP o u tp u t c u r r e n t r e q u ir e d f r o m th e S IP . B a s e d o n th a t n u m b e r , th e c h a r t w ill s h o w a c o r r e s p o n d in g r ip p le c u r r e n t r a tin g th e d e s ig n e r n e e d s to p la n fo r w h e n c h o o s in g in p u t c a p a c ito r s . E x a m p le u s in g S IP S 1 0 1 : T h e d e s ig n e r k n o w s th e S 1 0 1 is in te n d e d to p r o v id e 2 .5 V a t m a x im u m 5 A . U s in g th e S 1 0 1 d a ta s h e e t c h a r t, th is c o r r e s p o n d s w ith 4 A o f r ip p le c u r r e n t. A ls o k n o w n is th a t th e c a p a c ito r th e d e s ig n e r h o p e s to u s e h a s a r ip p le c u r r e n t r a tin g o f 2 .2 A . T h e r e f o r e , th e d e s ig n e r m u s t u s e tw o o f th e c h o s e n c a p a c ito r s in p a r a lle l fo r a to ta l r ip p le c u r r e n t c a p a b ility o f 4 .4 A - w h ic h w ill b e s u f f ic ie n t f o r th e 4 A r e q u ir e m e n t. O U T P U T C A P A C IT A N C E T h e o n ly r e q u ir e m e n t fo r c a p a c ita n c e v a lu e is f o r b a s ic c ir c u it s ta b ility o f th e S IP . T h a t v a lu e is s p e c if ie d o n th e S IP d a ta s h e e t— u s u a lly 1 5 0 μ F . T h e o th e r c o n s id e r a tio n f o r o u tp u t c a p a c ita n c e is th e to ta l e f fe c tiv e E S R ( E q u iv a le n t S e r ie s R e s is ta n c e ) . A s w ith r ip p le c u r r e n t, e v e r y c a p a c ito r h a s a s p e c if ie d E S R . W h e n u s in g m u ltip le c a p a c ito r s in p a r a lle l, th is E S R is a d d e d e x a c tly lik e p a r a lle l r e s is to r s . T h e r e fo r e , m o r e c a p a c ito r s m e a n le s s E S R . T h e S IP d a ta s h e e t s p e c if ie s a m a x im u m to ta l E S R n e c e s s a r y f o r o p tim u m S IP p e r f o r m a n c e . T h e d e s ig n e r m a y a ls o c h o o s e to a d d m o r e c a p a c ita n c e to r e d u c e o u tp u t r ip p le a n d n o is e . E x a m p le u s in g S IP S 1 0 1 : T h e S 1 0 1 d a ta s h e e t s p e c if ie s a m a x im u m E S R o f 1 0 0 m 7 f o r o u tp u t c a p a c ita n c e . T h e s y s te m d e s ig n e r w a n ts to u s e a c a p a c ito r w ith a s p e c if ie d E S R o f 1 3 0 m 7 . S in c e 1 3 0 m 7 is m o r e th a n th e n e e d e d 1 0 0 m 7 , tw o c a p a c ito r s m u s t b e u s e d in p a r a lle l f o r a to ta l e ff e c tiv e E S R o f 6 5 m 7 . G e n e r a lly , g o o d , lo w E S R b u lk c a p a c ito r s w ill b e u s e d fo r b o th in p u t a n d o u tp u t c a p a c ita n c e s o th a t f e w e r c a p a c ito r s a r e n e e d e d s in c e b o a r d r e a l e s ta te is u s u a lly a n im p o r ta n t f a c to r in to d a y 's d e s ig n s . Impact on Output Voltage Ripple and Transient Response If th e c u s to m e r’s a p p lic a tio n re q u ire s a v e r y lo w o u tp u t v o lta g e rip p le a n d / o r v e ry lo w o u tp u t v o lta g e o v e rs h o o t / u n d e rs h o o t d u rin g tra n s ie n ts , th e n th e g u id e lin e s p re v io u s ly s h o w n n e e d to b e e x c e e d e d a n d g o o d la yo u t p ra c tic e s b e c o m e m a n d a to ry. B y u s in g fo u r 3 3 0 μ F O S C O N c a p a c ito rs , e a c h h a vin g E S R = 1 7 m 7 , th e o u tp u t v o lta g e rip p le c a n b e d e c re a s e d to 5 0 m V p k -p k o n a 1 .2 V o u tp u t S IP . A ls o d u rin g a tra n s ie n t lo a d c o n d itio n (lo a d c u rre n t s te p s fro m 2 0 % to 1 0 0 % a n d b a c k , a t 2 A / μ s e c ) th e o u tp u t v o lta g e d o e s n o t o v e rs h o o t / u n d e rs h o o t m o re th a n 1 0 0 m V . W h e n fa s t a n d d e e p tra n s ie n t lo a d s a re e x p e c te d , th e in p u t c a p a c ito r b e c o m e s im p o rta n t a s w e ll, e s p e c ia lly if th e S IP is fa r fro m its in p u t v o lta g e s o u rc e . C a p a c ito rs h a v in g a s m u c h a s 2 0 0 0 μ F a n d c o m b in e d E S R lo w e r th a n 2 0 m 7 m ig h t be needed. P ra c tic a l re s u lts h e a v ily d e p e n d o n p h ys ic a l la yo u t a n d s p e c ific lo a d c o n d itio n s . F o r c ritic a l a p p lic a tio n s th e c u s to m e r is e n c o u ra g e d to c o n s u lt w ith th e m a n u fa c tu re r. Murata Power Solutions, Inc. 11 Cabot Boulevard, Mansfield, MA 02048-1151 U.S.A. ISO 9001 and 14001 REGISTERED Murata Power Solutions, Inc. makes no representation that the use of its products in the circuits described herein, or the use of other technical information contained herein, will not infringe upon existing or future patent rights. The descriptions contained herein do not imply the granting of licenses to make, use, or sell equipment constructed in accordance therewith. Specifications are subject to change without notice. © 2010 Murata Power Solutions, Inc. www.murata-ps.com/locations email: [email protected] 29 Apr 2010 MDC_S101-084-S101-00.B01 Page 6 of 6