1/13 XC25BS7 series pll clock generator ics with built-in divider/multiplier circuits � general description the XC25BS7 series are high frequency, low power consumption pl l clock generator ics with divider circuit & multiplier pll circuit. laser trimming gives the option of being able to select from input divider ratios (m) of 1 to 256 and output divider ratios (n) of 1 to 256. output frequency (fq0) is equal to refe rence clock oscillation (fclkin) multiplied by n/m, within a range of 1mhz to 100mhz. further, frequency within a range of 32khz to 36mhz can be inputted as a reference clock. the ic stops operation when low level signal is inputted to the ce pin. for this, consumption current can be reduced and output will be one of high-impedance. because the series is semi-c ustom, please ask torex sales contacts for your requested specifications such as input/output frequenc y, supply voltage. however, the series has the limit of spec ifications; therefore, your request may not be fully satisfied with your requested frequency range. � �? a pplications �? �? clock for controlling a imaging dot �? �? microcomputer and hdd drives �? �? cordless phones �? �? wireless communication equipment �? �? pdas �? �? cameras, vcrs �? �? various system clocks � typical application circuit � �? typical performance characteristics �? pll output signal jitter 2 (equivalent to an input signal) XC25BS7001xx (256 multiplier, input 48khz, typ.) etr1505-007a *1: c in (by-pass capacitor, 0.1 �� f) should be connected to the ic as close as possible. �? *2: rq0 is a resistor for unwanted radiation only to use when needed. � features input frequency : 32khz ~ 36mhz (*1) output frequency : 1mhz ~ 100mhz (fq0=fclkin n/m) (*1) output divider (n) : selectable from divisions from 1 to 256 (*1) input divider (m) : selectable from divisions from 1 to 256 (*1) operating voltage range : 2.50v ~ 5.50v (*1) low power consumption : cmos with stand-by function (*2) (10 a, max. when stand-by) packages environmentally friendly : sot-25, usp-6c :eu rohs compliant, pb free *1: the series are semi-custom products. specifications fo r each product are limited within the above range. the input frequency range is set within 5 �? of customer?s designated typical frequency. *2: when the ic is in stand-by mode, the output becomes high impedance and the ic stops operation. output jitter tj2=20 (ns)
2/13 XC25BS7 series pin number sot-25 usp-6c pin name function 3 1 q0 clock output 2 2 v ss ground 1 3 ce stand-by control 5 4 clkin reference clock signal input - 5 nc no connection 4 6 v dd power input designator description symbol description �?�?�? product number integer based on internal standards e.g. product number 001 ��?�?�? =001 mr sot-25 mr-g sot-25 er usp-6c �?�? - �? packages taping type (*2) er-g usp-6c � pin configuration � pin assignemnt � �? product classification �? ordering information XC25BS7 �?�?�?�?�?�?�? �?�?�?�e�? 1 2 3 5 4 sot-25 (top view) 1 2 3 6 5 4 usp-6c (bottom view) * the dissipation pad (tab) of the bottom view of the usp-6c package should be connected to the v ss (no. 2) pin. � �? function list ce 'h'' 'l'' or open q0 signal output high impedance �? h: high level input l: low level input stand-by mode clkin v dd ce v ss q0 v dd q0 v ss ce nc clkin (*1) the ?-g? suffix indicates that the products are hal ogen and antimony free as well as being fully rohs compliant. (*2) the device orientation is fixed in its embossed tape pocket. for reverse orientatio n, please contact your local torex sales office o r representative. (standard orientation: �? r- �? , reverse orientation: �? l- �? )
3/13 XC25BS7 series parameter symbol ratings unit supply voltage v dd v ss - 0.3 v ss + 7.0 v clkin pin input voltage v ck v ss - 0.3 v dd + 0.3 v ce pin input voltage v ce v ss - 0.3 v dd + 0.3 v q0 pin output voltage v q0 v ss - 0.3 v dd + 0.3 v q0 pin output current i q0 50 ma sot-25 150 mw power dissipation usp-6c pd 100 mw operating temperature range topr -40 +85 storage temperature range tstg -55 +125 � block diagram � a bsolute maximum ratings ta = 2 5 �?
4/13 XC25BS7 series XC25BS7001xx (256 multiplication � parameter symbol min. typ. max. unit input frequency fclkin - 48.000 - khz multiplier/divider ratio n/m - 256 - multiplier pll output frequency fq0 - 12.288 - mhz XC25BS7007xx ( 0.333 multiplication) parameter symbol min. typ. max. unit input frequency fclkin - 16.9344 - mhz multiplier/divider ratio n/m - 0.333 - multiplier pll output frequency fq0 - 5.6448 - mhz XC25BS7008xx (256 multiplication) parameter symbol min. typ. max. unit input frequency fclkin - 44.000 - khz multiplier/divider ratio n/m - 256 - multiplier pll output frequency fq0 - 11.264 - mhz XC25BS7012xx (256 multiplication) parameter symbol min. typ. max. unit input frequency fclkin - 92.000 - khz multiplier/divider ratio n/m - 256 - multiplier pll output frequency fq0 - 23.552 - mhz XC25BS7013xx (128 multiplication) parameter symbol min. typ. max. unit input frequency fclkin - 184.000 - khz multiplier/divider ratio n/m - 128 - multiplier pll output frequency fq0 - 23.552 - mhz *1: the chart below introduces the products with typical sp ecification characterisitecs which is under production or production in the past. *2: the series are semi-custom products. specifications for each product are limited within the range below. the input frequency is set within �? 5 �? of customer?s designated typical frequency. *3: for other part number with other input-output frequency or mu ltiplication, please ask torex sales contacts. � �? electrical characteristics �?�? characteristics exampl e by product series
5/13 XC25BS7 series parameter symbol conditions min. max. unit supply voltage v dd 3.3v (typ.) operation 2.97 3.63 v input frequency fclkin (*1) 45.000 60.000 k multiplier/divider ratio n/m typical value is shown (*1) 256 - output frequency fq0 (*1) 11.520 15.360 mhz capacity overload (*3) cl - 15 pf output start time (*2)(*3) t start fclkin 45khz 0.05 20 ms parameter symbol conditions min. typ. max. unit circuit h level input voltage v ih 2.70 - - v l level input voltage v il - - 0.60 v h level input current ii h v clkin =v dd -0.3v - - 3.0 a l level input current ii l v clkin =0.3v -3.0 - - a h level output voltage v oh v dd =2.97v, i oh =-4ma 2.50 - - v l level output voltage v ol v dd =2.97v, i ol = 4ma - - 0.40 v supply current 1 i dd1 v dd =3.63v, ce= 3.63v - 3.0 6.0 ma supply current 2 i dd2 v dd =3.63v, ce= 0.0v - - 10 a ce h level voltage v ceh 2.70 - - v ce l level voltage v cel - - 0.45 v ce pull-down resistance 1 rdn1 ce=v dd 0.2 1.0 1.8 m ? ce pull-down resistance 2 rdn2 ce=0.1 x v dd 10 30 60 k ? output off leak current i oz v dd =q0=3.63v, ce= 0.0v - - 10 a parameter symbol conditions min. typ. max. unit circuit output rise time (*1) tr (20% ~ 80%) - 2.5 5.0 ns output fall time (*1) tf (20% ~ 80%) - 2.5 5.0 ns fq0 Q 60m 45 50 55 output signal duty (*1) duty fq0 R 60m 40 50 60 pll output signal jitter 1 (*1) t j1 1 (output period) - 20 - ps pll output signal jitter 2 (*1) t j peak to peak (output tracking) - 20 - ns � electrical characteristics (continued) �? recommended operating conditions: XC25BS7001xx (256 multiplication, input 48khz (typ.)) 3.3v (typ.) tested below ta=25 o c note: *1: connected c in =0.1 �� f of a ceramic capacitor between the v dd pin the v ss pin while testing. *2: time until signal via the q0 pin flows stably from applying supply voltage to the v dd pin and control voltage to the ce pin while applying the input signal to the clkin pin. *3: the value indicated at output start time is designed values which are not guaranteed values. �? dc characteristics: XC25BS7001xx (256 multipli cation, input 48khz (typ.) ) 3.3v (typ.) test conditions: v dd =3.3v, fclkin=48khz, multiplier ratio=256, ta=25 �? , no load �? ac characteristics: XC25BS7001xx (256 multipli cation, input 48khz (typ.)) 3.3v (typ.) test conditions: v dd =3.3v, fclkin=48khz, multiplier ratio=256, ta=25 �? , cl=15pf note: *1: values indicated at the ac characteristics are designing values, which are not guaranteed values.
6/13 XC25BS7 series � note on use (1) please use this ic within the stated absolute maximum ratings . the ic is liable to malfunction should the ratings be exceeded. (2) the series is an analog ic. please use a 0.01 �� f to 0.1 �� f of a by-pass capacitor. (3) rq0 shown in the typical application circuit is a matc hing resistor. the use is recommended in order to counter unwanted radiations. (4) please place the by-pass capacitor and the matching resistor as close to the ic as possible. the ic may not operate normally if the by-pass capacitor is not close enough to t he ic. further, the unwanted radiation may occur between the resistor and the ic pin if the matchi ng resistor is not close enough to the ic. (5) when the ce pin is not controlled by external signals, it is recommended that a time constant circuit of r1=1k �
� c1 = 0.1 �� f be added for stability. (6) with this ic, output is achieved by dividing and multiplyi ng the reference oscillation by means of the pll circuit. in cases where this output is further used as a reference oscilla tion of another pll circuit, it may be that the final output signal's jitter increases; therefore, all necessary precautions should be taken to avoid this. (7) it is recommended that a low noise power supply, such as a series regulator, be used as the series? supply voltage. using a power supply such as a switching regulator may enlarge the jitter, which in turn may lead to abnormal operation. please confirm its operat ion with the actual device. (8) for operating the ic normally, please take procedures below when applying voltage to the series? input pin: 1) apply power source while the ce pin is "l" level with no clock input (high-impedance or ?l?), 2) input the clock, 3) at least 100 �� s after applying clock input, change the ce pin into ?h? level. the ic has to be started by inputting the clock once the power rises completely. the ce pin, then, should be enabling. if the ce pin becomes enable and the clock is inputted before the power rises completely, an internal reset circuit does not operate normally which may cause to generate extraneous frequency. (9) as for this ic, synchronization of input and output signals occurs at the rising edge.
7/13 XC25BS7 series � test circuit �? operating supply voltage h level input voltage l level input voltage ce ?h? level voltage ce ?l? level voltage output rise time output fall time output signal duty pll output signal jitter �? h level input current l level input current �? h level output voltage l level output voltage
8/13 XC25BS7 series �? supply current 1 supply current 2 �? ce pull-down resistance 1 ce pull-down resistance 2 �? output off leak current � test circuit (continued)
9/13 XC25BS7 series � a c characteristics test waveform 1) output rise time, output fall time 2) duty ratio 3) output start time t start
10/13 XC25BS7 series � typical performance characteristics �? output frequency range (capable of synchronous) vs. supply voltage �?�?�?�?�?�?�?�?�?�?�? XC25BS7001xx (256 multiplication, input 48khz (typ.))
11/13 XC25BS7 series � package information �? sot-25 �? usp-6c * no. 1 pin is larger than the other pins. soldering fillet surface is not formed because the sides of the pins are not plated. �? usp-6c �? reference mount pattern �?�?�?�?�?�?�? usp-6c �? reference metal masking
12/13 XC25BS7 series �?�?�?�?�?�?�?�?�?�?�?�?�? �?�?�?�?�?�?�?�?�?�?�?�?�? mark �? � b � � c � part number mark �? � b � � c � part number 1 0 1 XC25BS7*01m* k 1 7 XC25BS7*17m* 2 0 2 XC25BS7*02m* l 1 8 XC25BS7*18m* 3 0 3 XC25BS7*03m* m 1 9 XC25BS7*19m* 4 0 4 XC25BS7*04m* n 2 0 XC25BS7*20m* 5 0 5 XC25BS7*05m* p 2 1 XC25BS7*21m* 6 0 6 XC25BS7*06m* r 2 2 XC25BS7*22m* 7 0 7 XC25BS7*07m* s 2 3 XC25BS7*23m* 8 0 8 XC25BS7*08m* t 2 4 XC25BS7*24m* 9 0 9 XC25BS7*09m* u 2 5 XC25BS7*25m* a 1 0 XC25BS7*10m* v 2 6 XC25BS7*26m* b 1 1 XC25BS7*11m* x 2 7 XC25BS7*27m* c 1 2 XC25BS7*12m* y 2 8 XC25BS7*28m* d 1 3 XC25BS7*13m* z 2 9 XC25BS7*29m* e 1 4 XC25BS7*14m* 1 3 0 XC25BS7*30m* f 1 5 XC25BS7*15m* 2 3 1 XC25BS7*31m* h 1 6 XC25BS7*16m* � � � �?�?�?�?�?�?�?�?�?�?�?�?�?�?�? mark �? product series b XC25BS70**m* �� s XC25BS7s**m* mark �? �? �? product series b s �� XC25BS70**e* s �� s XC25BS7s**e* mark mark �? �? � b � � c � part number 0 1 XC25BS7001e* 0 2 XC25BS7s02e* � � � usp-6c (top view) � marking rule �? sot-25 �? and �? represent product series. �? represents the serial number corresponding to the part number � b � , � c � . * the serial numbers after the 99 are repeated as shown below for �? and �? . �? , �? and �? represents product series �? and �? represents product serial numbers ( �? = � b � , �? = � c � ) �? and �? represents production lot number 01, �? 09,10,11, �? ,99, 0a, �? ,0z,1a, �? ,9z,a0, �? ,z9,aa, �? zz are used in series. (g, i, j, o, q, and w are excluded from the serial numbers.) * inverted characters are not used. �? represents production lot number 0 �? 9, a �? z repeated (g, i, j, o, q, and w are excluded from the serial numbers) * inverted characters are not used. sot-25 (top view) �? usp-6c �? � � �y � �? �? �? �? �? �? �?
13/13 XC25BS7 series 1. the products and product specifications cont ained herein are subject to change without notice to improve performance characteristic s. consult us, or our representatives before use, to confirm that the informat ion in this datasheet is up to date. 2. we assume no responsibility for any infri ngement of patents, pat ent rights, or other rights arising from the use of any information and circuitry in this datasheet. 3. please ensure suitable shipping controls (including fail-safe designs and aging protection) are in force for equipment employing products listed in this datasheet. 4. the products in this datasheet are not devel oped, designed, or approved for use with such equipment whose failure of malfuncti on can be reasonably expected to directly endanger the life of, or cause significant injury to, the user. (e.g. atomic energy; aerospace; transpor t; combustion and associated safety equipment thereof.) 5. please use the products listed in this datasheet within the specified ranges. should you wish to use the products under conditions exceeding the specifications, please consult us or our representatives. 6. we assume no responsibility for damage or loss due to abnormal use. 7. all rights reserved. no part of this dat asheet may be copied or reproduced without the prior permission of torex semiconductor ltd.
|
