 |
|
| If you can't view the Datasheet, Please click here to try to view without PDF Reader . |
|
|
|
| If you can't view the Datasheet, Please click here to try to view without PDF Reader . |
|
|
| Datasheet File OCR Text: |
| AS1320 200ma step-up dc-dc converter www.austriamicrosystems.com revision 1.03 1 - 12 data sheet 1 general description the AS1320 is a high-efficiency step-up dc-dc con- verter designed to generate a fixed voltage of +3.3v. the AS1320 achieves an efficiency of up to 90%. the minimum input voltage is 1.5v, the output voltage is fixed at 3.3v, and output curr ent is up to 200ma (@ 2v). in order to save power the AS1320 features a shutdown mode, where it draws less than 1a. in shutdown mode the battery is connected dire ctly to the output enabling the supply of real-time-clocks. the AS1320 provides a power-on reset output that goes high-impedance when the output reaches 90% of its reg- ulation point. the shdnn trip threshold of the AS1320 can be used as an input voltage detector that disables the device when the battery voltage falls to a predetermined level. an internal synchronous rectifier is included, thus an external transistor or schot tky diode is not required. the AS1320 is available in a 6-pin sot23 package. figure 1. application diagram 2 key features fixed output voltage: 3.3v output current: up to 200ma (@ 2v) internal synchronous rectifier requires no external schottky diode or fets shutdown mode supply current: less than 1a efficiency: up to 90% minimum input voltage: +1.5v accurate shutdown low-bat tery cutoff threshold battery input connected to pin out in shutdown mode for backup power 6-pin sot23 package 3 applications the AS1320 is ideal for low-power applications where ultra-small size is critical as in medical diagnostic equip- ment, hand-held instruments, pagers, digital cameras, remote wireless transmitters, cordless phones, and pc cards. the device is also perfect as a local 3.3v supply or as a battery backup. AS1320 +1.5 to +3.5v battery +3.3v output c out 22f c in 22f l1 10h resetn output r 1 100k on off 4 lx 3 gnd 2 batt 6 resetn 1 shdnn 5 out
www.austriamicrosystems.com revision 1.03 2 - 12 AS1320 data sheet - pinout 4 pinout pin assignments figure 2. pin assignments (top view) pin descriptions table 1. pin descriptions name pin number description shdnn 1 active-low logic shutdown input 0 = the AS1320 is off and the current into batt is 1a (typ). 1 = the AS1320 is on. batt 2 battery voltage input gnd 3 ground lx 4 external inductor connection out 5 output voltage resetn 6 active-low reset output AS1320 1 batt 2 3 6 5 4 gnd shdnn out lx resetn www.austriamicrosystems.com revision 1.03 3 - 12 AS1320 data sheet - absolute maximum ratings 5 absolute maximum ratings stresses beyond those listed in table 2 may cause permanent damage to the device. these are stress ratings only, and functional operation of the de vice at these or any other cond itions beyond those indicated in section 6 electrical characteristics on page 4 is not implied. exposure to absolute maxi mum rating conditions for extended periods may affect device reliability. table 2. absolute maximum ratings parameter min max units comments all pins to gnd -0.3 7 v lx current 1 a latch-up -100 100 ma jedec 78 package power dissipation (t amb = +70oc) 500 mw ( ja = 9.1mw/oc above +70oc) operating temperature range -40 +85 oc electrostatic discharge -500 +500 v hbm mil-std. 883e 3015.7 methods humidity (non-condensing) 5 85 % storage temperature range -55 125 oc junction temperature 150 oc package body temperature 260 oc the reflow peak soldering temperature (body temperature) specified is in compliance with ipc/jedec j-std-020c ?moisture/ reflow sensitivity classification for non-hermetic solid state surface mount devices? . www.austriamicrosystems.com revision 1.03 4 - 12 AS1320 data sheet - electrical characteristics 6 electrical characteristics t amb = -40 to +85oc, v batt = +2v, v out = +3.3, v shdnn = +1.5v (unless otherwise specified). typ values @ t amb = +25oc. table 3. electrical characteristics parameter symbol conditions min typ max unit battery input range v batt 1.5 3.5 v startup battery input voltage 1 1. guaranteed by design. v su r load = 47 , t amb = +25oc 1.22 1.5 v r load = 47 , t amb = -40 to +85oc 1.24 output voltage 2 2. voltage which triggers next loading cycle. rip ple and rms value depend on external components. v out t amb = +25oc 3.267 3.300 3.333 v t amb = -40 to +85oc 3.217 3.373 n-channel on-resistance r nch i lx = 100ma, t amb = +25oc 0.3 1.2 i lx = 100ma, t amb = -40 to +85oc 1.5 p-channel on-resistance r pch i lx = 100ma, t amb = +25oc 0.4 1.3 i lx = 100ma, t amb = -40 to +85oc 1.6 n-channel switch current limit 1 i max t amb = +25oc 550 700 850 ma t amb = -40 to +85oc 450 950 switch maximum on-time t on t amb = +25oc 5 7 9 s t amb = -40 to +85oc 4 10 synchronous rectifier zero-crossing current t amb = +25oc 8 30 60 ma t amb = -40 to +85oc 0 65 quiescent current into out v out = +3.5v, t amb = +25oc 35 55 a v out = +3.5v, t amb = -40 to +85oc 60 shutdown current into out v shdnn = 0v, t amb = +25oc 0.01 1 a v shdnn = 0v, t amb = -40 to +85oc 2 quiescent current into batt v out = +3.5v, t amb = +25oc 0.01 1 a v out = +3.5v, t amb = -40 to +85oc 2 shutdown current into batt v shdnn = 0v, t amb = +25oc 0.01 1 a v shdnn = 0v, t amb = -40 to +85oc 2 shdnn logic low 1 v batt = +1.5 to +3.5v 0.3 v shdnn threshold rising edge, t amb = +25oc 1.185 1.228 1.271 v rising edge, t amb = -40 to +85oc 1.170 1.286 shdnn threshold hysteresis 0.02 v resetn threshold falling edge, t amb = +25oc 2.830 3.000 3.110 v falling edge, t amb = -40 to +85oc 2.800 3.140 resetn voltage low i resetn = 1ma, v out = +2.5v, t amb = +25oc 0.15 v i resetn = 1ma, v out = +2.5v, t amb = -40 to +85oc 0.2 resetn leakage current v resetn = +5.5v, t amb = +25oc 0.1 100 na v resetn = +5.5v, t amb = +85oc 1 lx leakage current t amb = +25oc 0.1 1000 na t amb = +85oc 10 maximum load current i load v batt = +2v 200 ma efficiency v batt = +3v, i load = 100ma 90 % www.austriamicrosystems.com revision 1.03 5 - 12 AS1320 data sheet - typical operating characteristics 7 typical operating characteristics v out = 3.3v, v batt = +2v, t amb = +25oc. figure 3. v out vs. v batt ; on, 16 figure 4. v out vs. v batt ; on, 330 figure 5. v out vs. v batt ; shutdown, 200ma load figure 6. v out vs. v batt ; shutdown, no load figure 7. maximum output current vs. v batt figure 8. startup voltage vs. load resistance 0 1 2 3 4 01234 battery voltage (v) output voltage (v) a 0 1 2 3 4 01234 battery voltage (v) output voltage (v) a 0 1 2 3 4 5 6 1 1.5 2 2.5 3 3.5 4 4.5 5 5.5 battery voltage (v) output voltage (v) a 0 1 2 3 4 5 6 0246 battery voltage (v) output voltage (v) a 0 100 200 300 400 500 600 1.5 2 2.5 3 3.5 battery voltage (v) maximum output current (ma) a 0 0.5 1 1.5 2 2.5 3 10 100 1000 10000 load resistance ( ) startup voltage (v) a www.austriamicrosystems.com revision 1.03 6 - 12 AS1320 data sheet - typical operating characteristics figure 9. line transient figure 10. load transient figure 11. on/off response; r load = 33 figure 12. shutdown response; r load = 33 figure 13. switching waveforms; r load = 33 figure 14. efficiency vs. load current 200ma 2ma 100s/div v out (ac coupled) v in 100s/div 1v/div 100mv/div v out (ac coupled) i out 100mv/div v out v sdhnn 200s/div 100s/div v out v in 1v/div 1v/div 2v/div 1v/div 65 70 75 80 85 90 95 1 10 100 1000 load current (ma) efficiency (%) 10s/div v batt = 3v v batt = 2.5v v batt = 2v v batt = 1.5v v out (ac coupled) v lx i l 2v/div 100mv/div 500ma www.austriamicrosystems.com revision 1.03 7 - 12 AS1320 data sheet - detailed description 8 detailed description the AS1320 is a high-efficiency, compact step-up converte r with 35a quiescent supply current which ensures the highest efficiency over a wide load range. with a minimum of +1.5v input voltage, the device is well suited for applica- tions with one- or two-cells, such as lithium i on (li+), nickel-metal-hydride (nimh), or alkaline. figure 15. block diagram the input battery is connected to the device through an inductor and an inte rnal p-fet when pin shdnn is low. in this state, the step-up converter is off and the voltage drop across the p-fet body diode is eliminated, and the input bat- tery can be used as a battery-backup or real-time-clock supply. the built-in synchronous rectifier signific antly improves efficiency and reduces pc b circuit size and costs by eliminat- ing the need for an external schottky diode. control circuitry the AS1320 integrated current-limited key circuitry provi des low quiescent current and extremely-high efficiency over a wide v out range without the need for an oscillator. inductor current is limited by the 7s switch maximum on-time or by the 0.7a n-channel current limit. at each cycle, the inductor current must ramp down to zero after the on-time before the next cycle may start. when t he error comparator senses that the ou tput has fallen be low the regulation threshold, anot her cycle begins. an internal synchronous rectifier eliminates the need for an external schottky diode, thereby reducing costs and pcb surface area. as the inductor discharges, the p-channel mosfet turns on and shunts the mosfet body diode, resulting in a significant reduction of the rectifier volt age drop, improving efficiency without external components. shutdown when pin shdnn is low the AS1320 is switched off and no cu rrent is drawn from batter y; when pin shdnn is high the device is switched on. if shdnn is driven from a logic-leve l output, the logic high-level (on) should be referenced to v out to avoid intermittently switching the device on. note: if pin shdnn is not used, it should be connected directly to pin out. in shutdown the battery input is connected to the output th rough the inductor and the internal synchronous rectifier p- fet. this allows the input battery to provide backup power fo r devices such as an idle microcontroller, memory, or real- time-clock, without the usual diode forward drop. in this way a separate backup battery is not needed. in cases where there is residual voltage during shutdown , some small amount of energy will be transferred from pin out to pin batt immediately after shutdown, resulting in a momentary spike of the voltage at pin batt. the ratio of c in and c out partly determine the size and duration of this spike, as does the current-sink ability of the input device. v ref zero crossing detector AS1320 driver and control logic startup circuitry 10h +1.5 to +3.5v battery current limiter +1.228v c in 22f + ? + ? +1.1v +3.3v output c out 22f 4 lx 2 batt 6 resetn 1 shdnn 5 out gnd 3 www.austriamicrosystems.com revision 1.03 8 - 12 AS1320 data sheet - detailed description low-battery cutoff the AS1320 shdnn trip threshold (1.228v) can be used as an input voltage detector that disables the device when the battery input voltage falls to a pre-set level. an exter nal resistor-divider network can be used to set the battery- detection voltage (see figure 16) . figure 16. low-battery cutoff application diagram for the resistor-divider network shown in figure 16 , calculate the value for r 1 by: r 1 = r 2 x ((v off /v shdnn ) - 1) (eq 1) where: v off is the battery voltage at which the AS1320 shuts down. v shdnn = 1.228v the value of r 2 should be between 100k and 1m to minimize battery drain. note: input ripple can cause false shutdowns, therefore to minimize the effect of ripple, a low-value capacitor from shdnn to gnd should be used to filter out input noise. the value of the capa citor should be su ch that the r/c time constant is > 2ms. power-on reset the AS1320 provides a power-on reset ou tput (resetn) that goes high-impedance wh en the output reaches 90% of its regulation point. resetn goes low when the output is below 90% of the regula tion point. a 100k to 1m pullup resistor between pin resetn a nd pin out can provide a micropr ocessor logic co ntrol signal. note: connect pin resetn to gnd when the pow er-on reset feature is not used. +1.5 to +3.5v battery +3.3v output c out 22f c in 22f l1 10h power-on reset r 3 100k 10nf r 1 220k r 2 1m AS1320 4 lx 3 gnd 2 batt 6 resetn 1 shdnn 5 out www.austriamicrosystems.com revision 1.03 9 - 12 AS1320 data sheet - application information 9 application information inductor selection the control circuitry of the AS1320 permits a wide range of indu ctor values to be selected ? from 4.7 to 47h; 10h is ideal for most applications. the intended application should dictate the value of l. the trade-off between required pcb surface area and desired output ripple are the determining factors: smaller values fo r l require less pcb space, larger values of l reduce output ripple. if the value of l is large enough to prevent i max from being reached before t on expires, the AS1320 output power will be reduced. for maximum output current calculate the value for l as: (v batt(max) (1s))/0.7a < l < (v batt(min) (7s))/0.7a (eq 2) i out(max) = [(0.7a/2)(v batt(min) - (0.7a/2)(r nch + r ind ))]/v out (eq 3) where: r ind is the inductor series resistance. r nch is the r ds(on) of the n-channel mosfet (0.3 typ). note: coils should be able to handle 500ma rms and have a i sat 1a and should have a r ind 100m . capacitor selection c out selection choose a c out value to achieve the desired output ripple percentage. a 22f ceramic capacitor is a good initial value. the value for c out can be determined by: c out > (l + 2.5h) x v batt(max) 2 / r% (eq 4) where: r is the desired output ripple in %. c in selection c in reduces the peak current drawn from t he battery and can be the same value as c out . a larger value for c in can be used to further reduce ripple and improve AS1320 efficiency. pc board layout and grounding well-designed printed circuit-board layout is important for minimizing ground bounce and noise. place pin gnd lead and the ground leads of c in and c out as close to the device as possible. keep the lead to pin lx as short as possible. to maximize output power and efficiency and minimize output ripple voltage, use a ground plane and solder the gnd pin directly to the ground plane. www.austriamicrosystems.co m revision 1.03 10 - 12 AS1320 data sheet - pack age drawings and markings 10 package drawings and markings the AS1320 is available in a 6-pin sot23 package. figure 17. 6-pin sot23 package symbol min max a 0.90 1.45 a1 0.00 0.15 a2 0.90 1.30 b 0.35 0.50 c 0.08 0.20 d 2.80 3.00 e 2.60 3.00 e1 1.50 1.75 l 0.35 0.55 e0.95 ref 0o 10o notes: 1. all dimensions are in millimeters. 2. foot length is measured at the intercept point between datum a and lead surface. 3. package outline exclusive of mold flash and metal burr. 4. pin 1 is the lower left pin when reading the top mark from left to right. 5. pin 1 identifier dot is 0.3mm. min and is located above pin 1. 6. meets jedec mo178 . www.austriamicrosystems.co m revision 1.03 11 - 12 AS1320 data sheet - ordering information 11 ordering information the AS1320 is available as the standard products shown in table 4 . table 4. ordering information part marking description delivery form package AS1320-t asd7 200ma step-up dc-dc converter tape and reel 6-pin sot23 www.austriamicrosystems.co m revision 1.03 12 - 12 AS1320 data sheet copyrights copyright ? 1997-200 7, austriamicrosystems ag, schloss premstaett en, 8141 unterpremstae tten, austria-europe. trademarks registered ?. all rights reserved. the materi al herein may not be reprodu ced, adapted, merged, trans- lated, stored, or used witho ut the prior written consent of the copyright owner. all products and companies mentioned are trademarks or registered trademarks of their respective companies. disclaimer devices sold by austriamicrosystems ag are covered by t he warranty and patent indemni fication provisions appearing in its term of sale. austriamicrosystems ag makes no warranty, express, statutory, implied, or by description regarding the information set forth herein or regarding the freedom of the described devices from pa tent infringement. austriami- crosystems ag reserves the right to chang e specifications and prices at any ti me and without notice . therefore, prior to designing this product into a system, it is necessary to check with austriamicrosystems ag for current information. this product is intended for use in normal commercial a pplications. applications requiring extended temperature range, unusual environmental requirements, or high reliability app lications, such as military, medical life-support or life- sustaining equipment are specifically not recommended wit hout additional processing by austriamicrosystems ag for each application. for shipments of less than 100 parts the m anufacturing flow might show deviations from the standard production flow, such as test flow or test location. the information furnished here by austriamicrosystems ag is believed to be correct and accurate. however, austriamicrosystems ag shall not be liable to recipient or any third party for any damages, including but not limited to personal injury, property damage, loss of profits, loss of use, interruption of business or indirect, special, incidental or consequential damages, of any kind, in connection with or ar ising out of the furnishing, performance or use of the tech- nical data herein. no obligation or liability to recipient or any third party shall arise or flow out of austriamicrosystems ag rendering of technical or other services. contact information headquarters austriamicrosystems ag a-8141 schloss premstaetten, austria tel: +43 (0) 3136 500 0 fax: +43 (0) 3136 525 01 for sales offices, distributors and representatives, please visit: http://www.austriamicrosystems.com/contact |
Price & Availability of AS1320
 |
|
|
|
|
All Rights Reserved © IC-ON-LINE 2003 - 2022 |
| [Add Bookmark] [Contact Us] [Link exchange] [Privacy policy] |
|
Mirror Sites : [www.datasheet.hk]
[www.maxim4u.com] [www.ic-on-line.cn]
[www.ic-on-line.com] [www.ic-on-line.net]
[www.alldatasheet.com.cn]
[www.gdcy.com]
[www.gdcy.net] |