HCF4099BC1中文资料
HEF4094BT中文资料
mA
−65
+150
°C
−40
+125
°C
[1] -
750
mW
[2] -
Hale Waihona Puke 500mWPpower dissipation
per output
-
100
mW
[1] For DIP16 packages: above Tamb = 70 °C, Ptot derates linearly with 12 mW/K. [2] For SO16 packages: above Tamb = 70 °C, Ptot derates linearly with 8 mW/K.
Symbol Parameter
Conditions
Min
Max
Unit
VDD
supply voltage
IIK
input clamping current
VI
input voltage
IOK
output clamping current
4094说明书
Value
3 to 18 3 to 15
0 to VDD – 55 to + 125 – 40 to + 85
Unit
V V
V
°C °C
2/14
LOGIC DIAGRAMS
HCC/HCF4094B
TIMING DIAGRAM
3/14
HCC/HCF4094B
TRUTH TABLE
TRUTH TABLE
June 1989
PIN CONNECTIONS
1/14
HCC/HCF4094B
FUNCTIONAL DIAGRAM
ABSOLUTE MAXIMUM RATINGS
Symbol
Parameter
Value
Unit
VDD* Supply Voltage : H CC Types H C F Types
Q7
NC
NC
Q7
Q7
NC
Q7
NC
Q7
NC
NC
Q7
v = Level Change
Logic 1 ≡ High
X = Don’t Care
Logic 0 ≡ Low
NC = No Change
OC = Open Circuit
* At the positive clock edge information in the 7th shift register stage is transferred to the 8th register stage and the QS output.
4/14
HCC/HCF4094B
STATIC ELECTRICAL CHARACTERISTICS (over recommended operating conditions)
各厂家中九接收机芯片IC资料大全(目前最完整的)部分附针脚定义
各厂家中九接收机芯片IC资料大全(目前最完整的)部分附针脚定义最新刷机资料点下面的链接最新刷机资料1最新刷机资料24月3日BIN教程工具集中帖刷机教程大全刷机工具大全2.10-3.2刷机bin大全3月3日后刷机bin大全各厂家中九接收机顶盒芯片IC资料大全(目前最完整的),部分附针脚定义。
方便大家速查。
可使用CTRL+F,然后输入相关数据进行速查,或者也可以下载附件。
品牌产品型号芯片配置海尔2晶10芯IC:HI2023E+1108+5812海尔高清OST-666 2晶6芯IC:M88VS2000+241674K.1+M88TS2020海尔高清OST-666 3晶12芯IC:High032E+His121+M88TS2020海尔3晶10芯(9针接口)IC:HI2023E+1108+5812+ESMTM12L64164A-GNR1T80AB 海尔高清OST-666 2晶6芯IC:Hi2023E+3160+TS2020欧视达ABS-209B 3晶10芯IC:GX3001+GX1121+LW37 欧视达ABS-209B 3晶11芯IC:GX3001+5037+8211欧视达ABS-309B 3晶11芯IC:GX3001+GX1121+MGCE5037欧视达AS-900S 1晶11芯IC:GX6121+25L80+LW37城市之宝BEX868 Y32S-93AT 2晶10芯IC:HTV903F+A VL1108+TS2020通达Y35S-8BAT/Y35S-8CAT 2晶10芯IC:HTV903+A VL1108+5812通达Y30S-01BT 2晶12芯IC:HTV903+A VL1108+2020 皇朝HSR-268 10芯IC:Hi2023+A VL1108+5812小霸王TDX-668E ABS-S1 1晶6芯IC:Hi2023+Hi3102+FT8211+HT1117天地星小霸王TDX-328B 1晶10芯IC:ALi M3328F+5810天地星小霸王TDX-668A (9针接口)IC:HI2023+1108+夏普头天地星小霸王TDX-668B 2晶振IC:HTV903+A VL1108EGA+RDA5812+25L8005天地星小霸王(三星数码王)TDX-668B 单晶6芯.针脚定义①-TXD ②-RXD ③VCC ④-GND ⑤-BL IC:Hi2023E+RDA5812+A VL1108E+MXT8211a+25L8005天地星(原大盒中星九号)3晶IC:Hi2023+1108+5037天地星TDX-668B 2晶10芯IC:Hi2023+A VL1108+5812天地星小霸王TDX-668C 2晶6芯IC:HTV903+A VL1108EGA+RDK5812+25F80小霸王TDX-328B 1晶10芯IC:ALi M3328F+5810小霸王TDX-668B 6芯IC:Hi2023+RDA5812+A VL1108E 小霸王TDX-668B 2晶6芯IC:HTV903+1108+5812小霸王TDX-668E 1晶6芯IC:Hi2023EC+Hi3121+5812 小霸王TDX-668E 2晶6芯IC:HTV903+1108+5812小霰王XC-B298 1晶12芯IC:HTV903-RDA5812-A VL1108 小霸王ABS-1388 2晶10芯针脚定义①-GND ②-RXD ③-TXD ④VCC小霸王ABS-1688 2晶10芯针脚定义①-GND ②-RXD ③-TXD ④VCC IC:Hi2023EC+Hi3122E+5812小霸王GF902 IC:A VL1118a+A V2020+EN25F80索尼高清ABS-S 258 2晶10芯针脚定义①-GND ②-RXD ③-TXD ④VCC IC:Hi2023EC+Hi3122E+5812索尼高清ABS-S 258 2晶10芯针脚定义①-GND ②-RXD ③-TXD ④VCC IC:Hi3102E+Hi2023EC+A V2020太阳红TYH-279ABS/289ABS/299ABS 2晶10芯针脚定义①-GND ②-RXD ③-TXD ④VCC松下科技星TDX-668B1/松下科技星-668EIC:Hi3102E+Hi2023EC+5812松下科技星TDX-668B 2晶6芯IC:HTV903FH42+A VL1108EGA+RGK5812松下科技星668B 2晶6芯Hi2023(E0908)+EVl1108EG2+5812松下科技星-668C 2晶6芯针脚定义①-RX .②-TX .③-GND .④VCC. ⑤-BLIC:A VL1108EG+HTV903F+5812松下科技星668E 2晶6芯IC:HV903+A VL1108E+5812松下科技星/海尔数码/海信数码单双晶6芯IC:Hi2023E+Hi3102(Hi3121)+5812松下科技星TDX-668B 2晶6芯针脚定义①-RXD .②-TXD .③-GND .④VCC. ⑤-BLIC:Hi2023+A VL1108+5812+25L8005松下高清SX168 3晶6芯IC:HTV903F+A VL1108+A V2020 松下数码王P-269A 2晶6芯IC:Hi2023E+Hi3122+A V2020 松下高清OST168 2晶10芯IC:Hi2023E+Hi3121+A V2020 松下科技PS-228 11芯IC:Hi2023+Hi3122+5812松下科技PS-228 2晶6芯IC:M88VS2000+M88TS2020+ES261474K松下科技PS-228 1晶12芯N88VS2000+ES261344K+M88TS2020高频头+T25P80+S163816STS松下科技PS-228 2晶IC:HTV903+1108+2020松下科技PS-228 2晶10芯IC:GX3001+GX1211+5812松下数码王OST-266 10芯(4针)针脚定义①-GND ②-RXD ③-TXD ④VCCIC:Hi2023E+Hi3106+2020松下数码王OST-266 2晶6芯IC:M88VS2000+M88TS2020+261414k+25F80松下数码王OST-266 2晶6芯IC:Hi2023E+Hi3102E+M88TS2020+MXT8211松下高清OST-466 2晶10芯IC:Hi2023e+Hi3121+MBBTS2020+MBDA80CG松下科技星3晶6芯IC:Hi2023+A VL1108+WGCE5037松下科技星.海尔数码.海信数码单双晶+6芯IC:Hi2023E+Hi3102(3121)+5812中星科技单晶14芯IC:Hi2023E+1108+5812+25L8单晶14芯中星科技ZG-N02 12芯IC:GX3001+A V2020中星科技2晶10芯针脚定义①-GND ②-RXD ③-TXD ④VCCIC:Hi2023EC+Hi3102E+5812+M12L64164A中兴科技ABS-S323 2晶10芯IC:Hi2023EC+HI3102E+5812+M12L64164A村村通ABS-S323- 2晶10芯针脚定义①-GND ②-RXD ③-TXD ④VCCIC:Hi2023EC+Hi3122E+5812村村通2晶6芯IC:HN4+0001+5812村村通ZL5188 1晶13芯IC:HTV903+1108+SHARP高频头村村通ZL-5188A 2晶11芯IC:HTV903+A VL1108+RDK5812村村通ZL-5188B 2晶13芯IC:HTV903+A VL1108+RDK5812 村村通ZL-5188B 2晶10芯IC:HTV903+A VL1108EGA+5812村村通ZL5188B 1晶13芯IC:HTV903+A V1108+SHARP6306村村通ZJ-11 IC:HTV903+1108+夏普头S7ZH6306村村通wx-666 3晶10芯IC:GX3001+GX1121+RDK5812村村通ZL-6188 2晶10芯IC:HTV903+A VL1108EGA+5812村村通ZL-6188C 10芯IC:GX3001+GX1121+RDK5812村村通DTH(铁壳) 3晶12芯IC:A VL1108EG+HTV903F+A V2020村村通001 3晶10芯IC:GX3001+GX1121+RDK5812村村通ABS-S GD-1008 3晶10芯IC:Hi2023E+A VL1108E+ZL10037+F16-100HIP村村通ABS-S888AIC:Hi2023EC+Hi3121+ET8211+RDA5812+25X80视美人ABS-S PS-1288 2晶10芯IC:Hi3102E+Hi2023EC+A V2020视美人PS-1288 ICM88VS2000+ES256454K+M88TS2020 视美人2晶10芯IC:Hi2023+3106+A V2020太平鸟HJ321 3晶10芯针脚定义①-GND .②-RXD .③-TXD .④VCCIC:GX3001+GX1121+TS2020太平鸟HJ321 3晶11芯IC:GX3001+GX1121+5812焦点yj5888 2晶10芯IC:HTV903+A VL1108+RDA5812幸运之星YJ5988 2晶10芯IC:HTV903F+A VL1108EGa+A V2020克莱尔HT701 1晶10芯IC:A VL1108EG+HTV903F+M88TS2000中电电子J-6288 ABS-S 3晶12芯IC:GX3001+GX1121+5812小福星3晶11芯针脚定义①-GND .②-(空) .③-RXD .④-TXD ()IC:GX3001+GX1121+5812东仕DIS-2000K 单晶10芯IC:HTV903F+A VL1108E+A V2020Souy Ericsson英文机2晶10芯IC:GX3001+GX1121+A V2020高斯贝尔/歌德威尔ABS-208F 3晶14芯针脚定义①-GND .②-TXD .③-RXD .④VCC .⑤-BL IC:A VL1108EG+Hi2023+5812高斯贝尔ABS-208 1晶14芯(5针).针脚定义①-GND .②-TXD .③-RXD .④VCC .⑤-BL IC:A VL1108EG+Hi2023+5812歌德威尔ABS-208H/高斯贝尔208P 3晶14芯针脚定义①-GND .②-TXD .③-RXD .④VCCIC:M3330E+A VL1108EG+A V2020+M12L64164高斯贝尔ABS-208P/歌德威尔208H 1晶14芯针脚定义①-GND .②-TXD .③-RXD .④VCC .⑤-BL IC:A VL1108EGi+Hi2023+5812高斯贝尔ABS-208P/歌德威尔208H 1晶14芯针脚定义①-GND .②-TXD .③-RXD .④VCCIC:M3330E+A VL1108EG+A V2020+M12L64164A高斯贝尔ABS—208F IC:Hi2023+A VL1108EGA+M88TS2020高斯贝尔ABS—208 2晶14芯IC:HTV903+1108+5812吉祥ABS-208C IC:Hi2023+A VL1108EGa+GST GAIM-18R ABS-STUNER吉祥ABS-2009B 3晶14芯IC:GX3001+GX1121+RDK5812吉祥ABS-2009大铁壳2晶IC:GX3001+GX1121+夏普高频头ABS-2009 2晶12芯IC:HTV903+1108+GAIM-18R歌德威尔ABS-208 3晶6芯IC:D61216GJ+1108+5812歌德威尔ABS-208 3晶14芯(9针接口)IC:M3330+1108+5812高斯贝尔ABS-208 3晶(9针母串口)IC:A VL1108+Hi2023+GAIM-18RIC:D61216GJ100+A VL1108EG+S29AL016D70TF102+ISSI高斯贝尔ABS-208N 铁壳(9针母串口) IC42s16400F高斯贝尔ABS-208 IC:D61216GJ+A V1108+29AL016D+5812高斯贝尔ABS-208S 1晶IC:NECD61216GJ+A VL1108EGa+高频头高斯贝尔ABS-208Q 1晶14芯IC:A VL1108EGA+M3330E+M12L64164A+A V2020ABS-S LX-3688A 1晶12芯IC:GX3001+GX1121+5812现代V4、V5 3晶9芯IC:GX3001+GX1121+5812+EN25D80+HY57V641620ETP-6 集信科技V6铁壳(海尔机芯) 3晶9芯针脚定义①VCC .②-TXD .③-RXD .④-GNDIC:1108EG(Hi3121)+Hi2023+5812.集信科技V4.V6(铁壳) 2晶9芯( B型)针脚定义①VCC .②-RXD .③-TXD .④-GNDIC:0001(GX3001)+HN4F74+5812集信科技V4 .V6(铁壳) 2晶10芯针脚定义①VCC. ②-RXD .③-TXD .④-GNDIC:00001(GX3001)+HN4LSW+S6416AHTA+5812集信科技V4.V6(铁壳)IC:HN4LSW+S6416AHTA-6BZH+EN25F80-1000CP+5812集信科技V4.V6(铁壳)IC:0002P1M43700ta06+5812+EN25F80+TM8211+POL4558 集信科技V4.V5 1晶10芯(A型)针脚定义①VCC .②-RXD .③-TXD .④-GNDIC:0002(GX6121)+5812+M12L64164A艾雷特2晶10芯IC:M88VS2000+ES256454K+M88TS2020艾雷特V5IC:HN4F910931M2EE+0001G1K729-1TA060932+5812艾雷特ALT5812 IC:GX3001+GX1121+5812艾雷特ALT600A 2晶11芯IC:M3330E+A VL108的+夏普高频头艾雷特ALT600A/吉祥ABS-2009 2晶IC:GX3001+GX1121-ES29L160FB+SHARP高频头艾雷特ALT600GIC:HTV903+A VL1108+25L160+ST2020(Y32S-8BAT 081113)艾雷特ALT6812 1晶10芯IC:GX6121+RDA5812+ZB-1A艾雷特ALT6815 1晶10芯IC:GX6121-RDA5812-2B-1A艾雷特ALT7815 3晶10芯IC:GX3001+1121+TS2020艾雷特1000 黑珍珠V4.V5 1晶10芯IC:0002(GX6121)+EEPLDA+5812+M12L64164A艾雷特alt 7812 3晶10芯IC:GX3001+GX1121+5812艾雷特ALT7812 3晶11芯针脚定义①VCC .②-RXD .③-TXD .④-GNDIC:GX3001+GX1121+5812艾雷特ALT600c 2晶10芯IC:GX3001+GX1121+5812艾雷特ALT600c 2晶11芯IC:GX3001+GX1121+5812艾雷特ALT600c 1晶11芯IC:CH216H+A VL1108+C6XS-8CA深圳亿通DVB-V5 10芯IC:HN4N46+EN25F80+G1N540-1TA06+IS42S16400-7T+581亿通电子WS-3688ZL 1晶10芯IC:Hi2023EC+Hi3102E+A V2020中大WS-3688ZJ (铁壳) 1晶10芯针脚定义①-GND .②-RXD .③-TXD .④VCCIC:Hi2023EC+Hi3102E+A V2020中大WS-3688ZJ (铁壳) 2晶10芯IC:Hi2023+A VL1108EG+夏普高频头皇视HSR-208A 2晶10芯IC:Hi2023E+A VL1108EG+A V2020皇视HSR-208B 2晶10芯IC:Hi2023+1108+2020皇视HSR-208B 单晶10芯IC:3330+1108+2020皇视HSR-208B 单晶10芯针脚定义①-GND ②-TXD ③-RXD ④-VCCIC:Hi2023EC+Hi3102+A V2020皇视HSR-2090 2晶11芯IC:Hi2023+1108EGa+夏普头++EN29LV160皇视HSR-210A 单晶6芯IC:Hi2023ec+Hi3122e+A V2020 皇视HSR-260A 铁盒2晶10芯IC:Hi+1108+SHARP夏普头皇视HRS-268 3晶10芯IC:Hi2023EC+Hi3102E+A V2020 皇视HRS-268 2晶10芯IC:Hi2023EC+Hi3121+5812皇视HSR-268 单晶10线IC:HTV903+A VL1108+5812皇视HSR-268 单晶10线IC:Hi2023+Hi3121+A V2020皇视HRS-268 3晶10芯IC:Hi2023EC+A VL1108+5812皇视HSR-260B 3晶10芯IC:Hi2023+1108+2020皇视HSR-260B/索尼高清258 1晶10芯IC:2023E+3121+A V2020皇视HSR-260B 3晶10芯IC:HI2023+1108+5812皇朝HSR-268 10芯IC:Hi2023+A VL1108+5812凯恩斯KES-2066S 6芯针脚定义①-TXD .②-RXD .③VCC .④-GND .⑤-BL IC:Hi3122E+Hi2023ECE+N25F80凯恩斯KES-2077Z 1晶6芯针脚定义①-TXD .②-RXD .③VCC .④-GND .⑤-BL IC:Hi2023EC+3122E+5812凯恩斯2077ABS 2晶10芯IC:M3330+A VL1108+5812凯恩斯2077ABS 2晶10芯IC:Hi2023+1108E+5812+25L800凯恩斯KES-2088S 2晶6芯IC:Hi2023EC+HI3102E+RDA5812凯恩斯KES-2088S 2晶10芯IC:Hi2023EC+HI3102E+RDA5812凯恩斯KES-2088S 2晶6芯针脚定义①-TXD .②-RXD .③VCC .④-GND .⑤-BL IC:Hi2023EC+HI3122E+RDA5812凯恩斯KES-2088Z (5针).针脚定义①-TXD .②-RXD .③VCC .④-GND .⑤-BL IC:Hi2023EC+HI3102E+RDA5812凯恩斯KES-2099S 2晶6芯IC:Hi2023EC+Hi3102E+5812+25L80凯恩斯KES-2188T 3晶10芯IC:Hi2023+1108+5812凯恩斯KES-2188T 3晶12芯IC:Hi2023+1108E+5037凯恩斯KES-2288S 3晶10芯IC:M3330E+A VL1108+RDA5812+M12L64164A凯恩斯KES-2688b 2晶10芯IC:Hi2023e+1108e+5812 凯恩斯KES-2688S 2晶10芯IC:Hi2023e+1108e+5812凯恩斯KES-2788S 3晶10芯IC:Hi2023E+A VL1108EGa+5812凯恩斯KES-2788S 2晶6芯IC:Hi2023EC+Hi3122E+5812凯恩斯KES-5188 11芯IC:HTV903+A VL1108EGA+A V2020凯恩斯KES-5188A铁盒2晶10芯IC:HTV903F+A VL1108+RDK5812+F80+PT8211凯恩斯KES-5188B 2晶13芯IC:HTV903+RDA5812+A VL1108+8211+F80美路3晶13芯IC:Hi2023E+1108+2119美路2晶12芯IC:GX3003+GX1121+5812美路MR-1809 IC:Hi2023E+A VL1108E+高频头MAX2119C 美路MR-5598铁壳3晶12芯IC:GX3003+GX1121+5812 美路MR-5598 3晶12芯针脚定义①VCC. ②-RXD .③-TXD .④-GNDIC:Hi2023E+1108+2119C美路-5798 IC:Hi2023E+1108+2119C美路-5598 IC:Hi2023+1108+GAIM-18R+29lv160ZY 5518A 2晶10芯IC:Hi2023E+3102E+5812万利达ZY-5518A 1晶6芯((5针))IC:Hi2023E+Hi3102E+5812万利达ZY-5518A 2晶10芯IC:CX3001+GX1121+5812万利达ZY-5518A 3晶10芯(9针接口)IC:Hi2023+1108+5812长虹新一代3晶10芯IC:HI2023E+1108E+FL016ALF长虹新一代,海尔数码、海信数码单双晶体6芯IC:HI2023E+3102(3121)+5812长虹数码CH930 3晶12芯IC:HTV903F+1108+A V2020+M80长虹精品TC-6688ABS 2晶10芯IC:HTV903+A VL1108EG+5812长虹精工YJ5978 1晶10芯IC:HTV903F+1108EGa+2000+F80-100+8211长虹KES-2099S 2晶5芯IC:Hi2023+Hi3102E+5812长虹KES 2晶6芯IC:Hi2023+Hi3102+5812长虹CH920 3晶6芯IC:HTV903F+1108EGa+A V2020+25L80航天天信WTD198J 2晶12芯(9针接口)IC:GX3001+GX1121+5812+ES29LV160FB-70TG航天珠江WTD-198J 2晶12芯IC:GX3001+GX1121+5812 航天珠江ABS-209B IC:GX3001+GX1121++WGSE5037航天数码ABS-3809 2晶12芯IC:GX3001+GX1121+5812航天直播HT-168 3晶12芯IC:Hi2023+1108+夏普头航天高清王-HS-166 2晶12芯IC:Hi2023EC+Hi3102E+RDA5812航天高清王HS-169 2晶12芯针脚定义①-GND .②-TX .③-RX .④-VCCIC:Hi2023EC+3122+5812天诚TCD-219ABS 2晶10芯IC:M3330E+A VL1108EGA+5812天诚TCD-299Z 2晶10芯IC:Hi2023+3206+5812天诚TD-299Z 2晶5芯IC:Hi2023+3206+5812天诚TD-2992 2晶6芯IC:Hi3122E+Hi2023E+5812+F80+MXT8211天诚539 2晶10芯IC:HTV903+A V1108+5812天诚519型2晶10芯IC:HTV903+1108E+5812天诚TCD-239ABS 3晶10芯IC:M3330+1108+5812 天诚TCD-239ABS 2晶10芯IC:Hi2023+1108E+5812 天诚TCD-239 2晶10芯IC:M3330E+1108E+5812天诚TCD-299ABS 2晶10芯IC:Hi2023EC+Hi3121+5812天诚TCD-319ABS 3晶10芯IC:Hi2023E0914+A VL1108EGa+RDA5812天诚TCD-319ABS 3晶12芯IC:Hi2302+A VL1108+5037 天诚TCD-369ABS 3晶10芯IC:Hi2023+1108+5812天诚TCD-369ABS 3晶10芯IC:M3330E+1108+5812天诚TCD-369ABS 3晶5芯IC:Hi2023+1108+WCGE5037天诚TCD-509ABS 3晶10芯IC:M3330E-A VL1108EGa-5812天诚TCD-509ABS 10芯(5针)IC:Hi2023+A VL1108+5812+M12L6416A天诚TCD-539ABS 2晶10芯(5针)针脚定义①-RX .②-TX .③VCC .④-GND .⑤-BLIC:M3330E+A VL1108+25L80+5812天诚TCD-579ABS 2晶10芯IC:Hi2023+Hi1108+5812天诚TCD-579ABS 3晶10芯IC:HiM3330+A VL1108EGa+RDA5812天诚TCD-589ABS 3晶10芯IC:Hi2023+1108+5812天诚TCD-689ABS铁壳机2晶12芯(9针接口)IC:Hi2023+A VL1108+夏普头天诚TC-ABS1108A 11芯IC:Hi2023EC+A VL1108+5812 TCD--239ABS 2晶10芯IC:M3330E+A VL1108E+5812 TCD-339ABS 3晶10芯(9针接口) IC:Hi2023+1108+5812TCD-509ABS 3晶10芯IC:Hi2023E0915+A VL1108EGa+RDA5812TCD-509ABS 2晶10芯(5针) IC:Hi2023EC+HI3121+5812TCD-519ABS 2晶10芯IC:Hi2023+A VL1108+5812TCD-599 2晶10芯IC:M3330+A VL1008+5812TCD-219ABS 2晶振10芯针脚定义①-TXD .②-RXD .③-VCC .④-GND .⑤-BLIC:Hi2023EC+Hi3121+5812爱普思DVB-2568 3晶10芯IC:HTV903+1121+2020卓异5518A 3晶10芯IC:Hi2023E+1108+5812卓异5518A(铁壳)3晶11芯IC:Hi2023E+1108+5812卓异5518A(铁壳)2晶11芯(9针接口) IC:Hi2023+1108+夏普独立高频头卓异5518A G 1晶10芯爱百信针脚定义①-GND .②-TXD .③-RXD .④VCCIC:HTV903+A VL1108+5812卓异ZY-5518A G 驰骋天下针脚定义①-GND .②-RXD .③-TXD .④VCCIC:HTV903+A VL1108+5812+F80卓异5518AG 2晶11芯针脚定义①-GND .②-RXD .③-TXD .④VCC ⑤-BL IC:Hi2023E+1108+5812卓异ZY-5518A H 春1晶6芯针脚定义①-GND .②-TXD .③-RXD .④VCCIC:GX3001+5812+25L8005卓异ZY-5518A H 春2晶10芯针脚定义①-GND .②-TXD .③-RXD .④VCC .⑤-BLIC:Hi2023E+HI3121+5812+F25L008A卓异ZY-5518A H 秋针脚定义①-GND .②-RXD .③-TXD .④VCC 升级接口在内部PCB上IC:GX6121+5812+F80卓异ZY-5518A H 秋1晶10芯针脚定义①-GND .②-RXD .③-TXD .④VCC ⑤-BLIC:Hi2023EC+Hi3102E+5812+F80-100卓异ZY-5518A H至尊王牌2晶10芯针脚定义①-GND .②-TXD .③-RXD .④VCCIC:GX3001+GX1121+5812+25L8005卓异ZY-5518A H 财富2晶6 芯针脚定义①-GND .②-TXD .③-RXD .④VCC .⑤-BLIC:芯片掩磨+5812+80L100绿达PS-1288 3晶12芯IC:Hi2023E+ABS090520+M88TS2020绿达PS-1288 2晶12芯IC:Hi2023+Hi3021+A V2020绿达视美人\卓异1晶10芯IC:Hi2023EC+Hi3121+2020 绿达金统帅3晶10芯IC:M3330+1108+5812三星DQ88/DQ66 IC:HTV903F+A VL1108+A V2020三星高清王2晶12芯IC:GX3001+GX1121+5812三星高清DQ88 3晶12芯IC:HTV903F+A VL1108+A V2020 三星数码王TDX668B 2晶6芯针脚定义①-RXD .②-TXD .③-GND .④VCC. ⑤-BLIC:Hi2023+1108+5812三星数码王TDX668B 2晶6芯IC:HTV903F+A VL1108E+5812三星数码王668C 2晶6芯IC:HTV903F+A VL1108E+5812三星数码王TDX668E 1晶6芯IC:Hi2023EC+3102C+5812三星HSR-208C 1晶10芯IC:Hi2023E+Hi3102+MXT8211+A V2020+F25L08pA三星小霸王ABS-S 2009 2晶10芯IC:CX3001+CX1121+5812三星小霸王2900 (9针接口)IC:Hi2023E+A VL1108+MAX2119三星王国-KL6350 1晶11芯IC:HTV903+A VL1108EGa+EDA5812开门红KSP638 2晶10芯IC:HTV903F+A VL1108E+A V2020开门红KSP638 1晶10芯IC:CT216H+A VL1108EGa+A V2020日立创新TDX-668B 2晶6芯针脚定义①-RXD .②-TXD .③-GND .④VCC. ⑤-BLIC:Hi2023+A VL1108+5812志高之星HS166 2晶12芯IC:Hi3102+Hi2023+5812志高之星HS169 2晶12芯IC:Hi2023EC+Hi3012E+RDA5812A+EM638165TS-6G金牛ABS-1108 3晶10芯IC:Hi2023+1108+5812小灵通2晶6线IC:Hi2023+1108+5812福临门ABS-S 3晶9线IC:GX1121+GX3001+5812C60S-93AT 单晶10芯IC:CT216H+A VL1108EGa+A V2020 ABS-2301 单晶10芯针脚定义①-GND.②-TXD.③-RX .④VCCIC:Hi2023EC+Hi3211E+5812+25L8005其乐达CT216 2晶10芯IC:CT216+1108+A V2020科海6228 1晶11芯IC:HTV903+A VL1108EGa+RDa5812+25X16A VSIG科海6228-CT216H 1晶11芯IC:CT216H+1108EGa+M88TS2020科海C623S-91AT 单晶10芯IC:CT210H+A VL1108+2020 科海炫彩6888 IC:HTV903+A VL1108EGa+RDa5812科海2888(小天使)2晶10芯IC:HTV903+A VL1108EGa+RDa5812大旗920 3晶12芯IC:HTV903+A VL1108+A V2020大旗DQ920 3晶12芯IC:GX3001+GX1121+5812+25X16 大旗930 3晶12芯IC:HTV903+A VL1108+A V2020众昌电子ABS--2088 2晶10芯IC:Hi2023+A VL1108+5812众昌电子ABS-2087 2晶10芯IC:M3330+A VL1108+5812 创维S600 3晶IC:M3330E+A VL1108E+5812创维新一代3晶10芯IC:Hi2023E+1108+5037+FL016A 中广通XC-B188 3晶12芯IC:GX3001+GX1121+5812深圳知音ABSTAR KT-2309 3晶10芯IC:Hi2023+A VL1108E+5812知音科技ABSTAR KT1028H 2晶振10芯IC:Hi2023+A VL1108+GST GAIM-18R铁壳ABS-2009 2晶11芯IC:Hi2023+1108+夏普头王牌数码OST-366 2晶6芯针脚定义①-GND ②-RXD .③-TXD .④VCCIC:Hi3102+Hi2023EC+A V2020王牌数码王GM-ABS1108A 2晶10芯针脚定义①-GND .②-TXD .③-RXD .④VCCIC:GX3001+GX1121+5812+25L8005王牌数码王GM-ABS1108A 10芯IC:Hi2023+A VL1108+5812JIXIANG ABS-208 2晶14芯(9针接口)IC:Hi2023+1108+GST GAIM-18R ABS TUNER 夏普头JIXIANG-ABS208 2晶IC:D6121+1108+GST高频头East Star 2晶10芯IC:M3330-1108-GST GAIM-18R高频头小福星abs 2008 3晶12芯IC:GX3001+GX1211+5812通达C60S-93AT/C62S-91AT 1晶10芯IC:CT216H+A VL1108E+2020威特斯ZL-5188A 2晶13芯IC:HTV903+A VL1108+RDK5812威特斯ZL-5188B 2晶11芯IC:GX3001+GX1121+5812迷你星3晶13芯IC:GX3001+GX1121+5812+F16-100HIP高星HS-312 3晶12芯IC:GX3001+GX1121+5812北大高科3晶9芯IC:GX3001+GX1211+5812思达科ABS-S 801型2晶10芯IC:GX3001+GX1121+5810思达科ABS-S 802G 2晶10芯IC:GX3001+GX1211+5812思达科ABS-S 803A 1晶10芯IC:A VL1118+A V2020+25D80V思达科ABS-S 803G IC:GX3001+GX1211+5812思达科ABS-S 806H IC:GX3001+GX1211+5812思达科ABS-S 806H IC:A VL1118+A V2020+DSD4M16G思达科ABS-S 806H IC:HN4J7G+G2A954+5812+25X80思达科ABS-S807 1晶5芯IC:A VL1118a+A V2020+806H金霸王JBW-6688 2晶11芯IC:HTV903F+A VL1108EGa+A V2020+8211金霸王JBW-6688 IC:GX3001+GX1211+5812阿德尔ADE-168 IC:HY903+A VL1108EG+A V2020阿德尔ADE131金刚IC:HTV903F+A VL1108E+M88TS2020 海西小霸王TD299Z 2晶6芯IC:Hi2023E+Hi3122+5812 同洲CY-668S 1晶12芯IC:HM1512+1108+5812喜旺ABS5398 IC:Hi2023+1108E+MAX2119C喜旺ABS-5798 12芯IC:GX3001+GX1211+5812喜旺ABS-3809 2晶12芯IC:GX3001+GX1121+RDA5812希旺598 2晶12芯(9针接口) IC:Hi2023+1108+SHRP 高频头彩虹视霸CY84 1晶10芯IC:HTV903F+A VL1108+M88TS2020彩虹视霸A10S-9AAT 1晶10芯IC:A VL1118+SM42S16400B1-7+F80九洲村村通DVS-398F IC:CT216H+ALV1108+SHRP高频头金星ABS-208 1晶14芯IC:Hi2023+A VL1108+铁壳高频头威克2晶6芯(5针) IC:HTV903+1108+5812华尔HR731A1 3晶12芯IC:CX3001+CX1121+SHARP高频头爱普斯3晶9芯IC:HTV903+A V2020+A VL1108EG爱普斯2568 3晶10芯IC:HTV903+A V2020+A VL1108EG 爱普斯IC:GX3001+GX1211+A V2020+2J10X未来视佳ADEI88 3晶9芯IC:HTV903F+A V2020+A VL1108EG黑金刚TRT006 1晶10芯IC:A VL1118+A V2020+4558+F80-100DX-668 2晶10芯针脚定义①-RXD .②-TXD .③VCC .④-GND .⑤-BLIC:Hi2023EC_Hi3102E+5812+F80-100傲天海-吉祥2晶12芯针脚定义①-GND ②-RXD ③-TXD ④VCCIC:GX3001+GX1121+RDA5812高频头+P8075火星漫步LJ6008 1晶10芯IC:HTV903F+A VL1108+M88TS2020+F80-100王牌新一代TD-299Z针脚定义①- . ②-TXD .③-RXD .④-GND ⑤-IC:Hi2023E+Hi3122+5812王牌HJ360 3晶10芯IC:GX1120+GX3001+TS2020TVWALKER ABS-2008 1晶6芯IC:D61216GJ+1108E+SHARP头吉祥988 (ZJ-111) 1晶11芯IC:HTV903 +1108+高频头北京北电科林3晶12芯IC:Hi2023+A VL1108EGa+SHARP高频头家家福BEX811 1晶10芯IC:24645K2+M88VS2000+M88TS2020家家福ADE158 IC:HTV903+A VL1108+M88TS2020华星科技2晶IC:Hi2023+A VL1108+5812亚视达ABR-S(H11) 2晶10芯IC:HTV903+1108E+A V2020HSTAR 3晶10芯IC:Hi2023+A VL1108EGa+M88IS2020长江电讯ABS-2008型铁壳(9针接口)IC:D61216GJ+A VL1108EG+夏普头全家福3晶IC:Hi2023E+A VL1108EG+M88TS2020 畅想BEX818 1晶10芯IC:HTV903+A VL1108+A V2020 必佳GF-901 2晶10芯针脚定义①-GND .②-RXD .③-TXD .④VCCIC:HTV903+1108+A V2020KSP600G 飓风(华亚) 2晶10芯针脚定义①-GND ②-TXD ③-RXD ④VCCIC:HTV903+1108+M88TS2020+25D80万家乐TB002 (5针)IC:Hi2023EC+Hi3102E+M88TS2020+25X80A V万家乐2晶6芯IC:M3330+ALi1108+5812+F80-75奥伟科技ABS-800 3晶(9针接口)IC:GX3001+GX1121+5812奥伟科技ABS-900E 2晶12芯IC:CT216+A VL1108+独立高频头GAIR-08R天眼HSTER3晶10芯IC:Hi2023E+A VL1108+5812飞翔ADE351 2晶10芯IC:HTV903F+A VL1108EG+M88TS2000星视通XC-B268 1晶10芯IC:HTV903+A VL1108+5812星视通XC-C268 1晶11芯IC:HTV903 A VL1108 5812奥维科技ABS-600 3晶12芯IC:GX3001+GX1121+A V2020 超的个人论坛转载分享本资源。
HCF4098BEY中文资料
1/10September 2001sRETRIGGERABLE/RESETTABLE CAPABILITY s TRIGGER AND RESET PROPAGATION DELAYS INDEPENDENT OF R X , C X s TRIGGERING FROM LEADING OR TRAILING EDGE s Q AND Q BUFFERED OUTPUT AVAILABLE s SEPARATE RESETS s WIDE RANGE OF OUTPUT PULSE WIDTHS s QUIESCENT CURRENT SPECIFIED UP TO 20V s 5V, 10V AND 15V PARAMETRIC RATINGS s INPUT LEAKAGE CURRENTI I = 100nA (MAX) AT V DD = 18V T A = 25°C s 100% TESTED FOR QUIESCENT CURRENT s MEETS ALL REQUIREMENTS OF JEDEC JESD13B " STANDARD SPECIFICATIONS FOR DESCRIPTION OF B SERIES CMOS DEVICES"DESCRIPTIONThe HCF4098B is a monolithic integrated circuit fabricated in Metal Oxide Semiconductor technology available in DIP and SOP packages. The HCF4098B dual precision monostable multivibrator provides stable retriggerable/resettable one-shot operation for any fixed voltage timing application. An external resistor (R X ) and an external capacitor (C X ) control the timing for the circuit. Adjustment of R X and C X provides a wide range of output pulse widths from the Q and Q terminals. The time delay from trigger input to output transition (trigger propagation delay) and the time delay from reset input to output transition (reset propagation delay) and the time delay from reset input to output transition (reset propagation delay) are independent of R X and C X . Leading edge triggering (+TR) and trailing edge triggering (-TR) inputs are provided for triggering from either edge of an input pulse. An unused +TR input should be tied to V SS . An unused -TR input should be tied to V DD . A RESET (on low level) is provided for immediate termination of the output pulse or to prevent output pulses when power is turned on.HCF4098BDUAL MONOSTABLE MULTIVIBRATORPIN CONNECTIONORDER CODESPACKAGE TUBE T & R DIP HCF4098BEY SOPHCF4098BM1HCF4098M013TRHCF4098B2/10An unused RESET input should be tied to V DD .However, if an entire section of the HCF4098B is not used, its reset should be tied to V SS (see table 1). In normal operation the circuit triggers (extends the output pulse one period) on the application of each new trigger pulse. For operation in the non-retiggerable mode, Q is connected to -TR when leading edge triggering (+TR) is used or Q is connected to +TR when trailing edge triggering (-TR) is used. The time period (T) for this multivibrator can be calculated by : T = 1/2 R X C X for C X > 0.01µF. The min. value of external resistance, R X , is 5K Ω. The max. values of external capacitance, C X , is 100 µF. The output pulse width has variations of ±2.5% typically, over the temperature range of -55 °C to 125 °C for C X =1000pF and R X = 100K Ω . For power supply variation of ±5% typically , for V DD = 10V and 15V and ±1% typically for V DD = 5V at C X = 1000pF and R X = 5K Ω .IINPUT EQUIVALENT CIRCUITPIN DESCRIPTIONFUNCTIONAL DIAGRAMPIN No SYMBOL NAME AND FUNCTION 4, 12+TR Leading Trigger Inputs 5, 11-TR Trailing Trigger Inputs 3, 13RESET Reset Inputs 1, 15C X 1, C X 2External Capacitors 2, 14R X C X 1R X C X 2External resistors to Vdd 6, 7Q1, Q1Ouputs Mono 110, 9Q2, Q2Outputs Mono 28V SS Negative Supply Voltage 16V DDPositive Supply VoltageHCF4098B3/10TABLE 1 : Functional Terminal ConnectionsA Retriggerable one-shot multivibrator has an output pulse width which is extended on full time period (T) after application of the last trigger pulse.A Non-Retriggerable one-shot multivibrator has a time period (T) referenced from the application of the firs trigger pulse.LOGIC DIAGRAMABSOLUTE MAXIMUM RATINGSAbsolute Maximum Ratings are those values beyond which damage to the device may occur. Functional operation under these conditions is not implied.All voltage values are referred to V SS pin voltage.FUNCTIONV DD to Term. N °V SS to Term. N °Input Pulse to Term. N °Other ConnectionsMono (1)Mono (2)Mono (1)Mono (2)Mono (1)Mono (2)Mono (1)Mono (2)Leading Edge Trigger/Retriggerable3, 511, 13412Leading Edge Trigger/NonRetriggerable 3134125, 711, 9Trailing Edge Trigger/Retriggerable313412511Trailing Edge Trigger/NonRetriggerable 3135114, 612, 10Unused Section5113, 412, 13Symbol ParameterValue Unit V DD Supply Voltage -0.5 to +22V V I DC Input Voltage -0.5 to V DD + 0.5V I I DC Input Current± 10mA P D Power Dissipation per Package200mW Power Dissipation per Output Transistor 100mW T op Operating Temperature -55 to +125°C T stgStorage Temperature-65 to +150°CHCF4098B4/10RECOMMENDED OPERATING CONDITIONSDC SPECIFICATIONSThe Noise Margin for both "1" and "0" level is: 1V min. with V DD =5V, 2V min. with V DD =10V, 2.5V min. with V DD =15VSymbol ParameterValue Unit V DD Supply Voltage 3 to 20V V I Input Voltage0 to V DD V T opOperating Temperature-55 to 125°CSymbolParameterTest ConditionValue UnitV I (V)V O (V)|I O |(µA)V DD (V)T A = 25°C -40 to 85°C -55 to 125°C Min.Typ.Max.Min.Max.Min.Max.I LQuiescent Current0/550.0213030µA0/10100.02260600/15150.024*******/20200.0420600600V OHHigh Level Output Voltage0/5<15 4.95 4.95 4.95V0/10<1109.959.959.950/15<11514.9514.9514.95V OLLow Level Output Voltage5/0<150.050.050.05V10/0<1100.050.050.0515/0<1150.050.050.05V IHHigh Level Input Voltage 0.5/4.5<15 3.5 3.5 3.5V1/9<1107771.5/13.5<115111111V ILLow Level Input Voltage 4.5/0.5<15 1.5 1.5 1.5V9/1<11033313.5/1.5<115444I OHOutput Drive Current0/5 2.5<15-1.6-3.2-1.3-1.3mA0/5 4.6<15-0.51-1-0.42-0.420/109.5<110-1.3-2.6-1.1-1.10/1513.5<115-3.4-6.8-2.8-2.8I OLOutput Sink Current0/50.4<15-0.511-0.42-0.42mA 0/100.5<110-1.3 2.6-1.1-1.10/15 1.5<115-3.46.8-2.8-2.8I I Input Leakage Current0/18Any Input 18±10-5±0.1±1±1µA C IInput CapacitanceAny Input57.5pFHCF4098B5/10DYNAMIC ELECTRICAL CHARACTERISTICS (T amb = 25°C, C L = 50pF, R L = 200K Ω, t r = t f = 20 ns)(*) Typical temperature coefficient for all V DD value is 0.3 %/°C.SymbolParameterTest ConditionValue (*)UnitR X (K Ω)C X (pF)V DD (V)Min.Typ.Max.t PLH t PHL Propagation Delay Time+TR or -TR to Q or Q 5 to 10000>155250500ns 1012525015100200t WH t WLTrigger Pulse Width5 to 10000>15514070ns106030154020t TLHTransition Time5 to 10000>155100200ns1050100154080 t THLTransition Time5 to 1000015 to 100005100200ns10501001540805 to 100000.01µF to 0.1µF 5150300107515015651305 to 100000.1µF to 1µF5250500101503001580160t PLH t PHL Propagation Delay Time(Reset) 5 to 10000>155225450ns101252501575150t WRPulse Width (reset)100155200100ns10804015603010005120060010600300155002500.1µF550250µs103015152010t r, t f (TR)Rise or Fall Time (trigger)5 to 15100µs Pulse Width Match Between Circuits in Same Package10100005510%107.515157.515HCF4098B6/10TEST CIRCUITL R L = 200K ΩR T = Z OUT of pulse generator (typically 50Ω)HCF4098B7/10HCF4098BInformation furnished is believed to be accurate and reliable. However, STMicroelectronics assumes no responsibility for the consequences of use of such information 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 STMicroelectronics. Specifications mentioned in this publication are subject to change without notice. This publication supersedes and replaces all information previously supplied. STMicroelectronics products are not authorized for use as critical components in life support devices or systems without express written approval of STMicroelectronics.© The ST logo is a registered trademark of STMicroelectronics© 2001 STMicroelectronics - Printed in Italy - All Rights ReservedSTMicroelectronics GROUP OF COMPANIESAustralia - Brazil - China - Finland - France - Germany - Hong Kong - India - Italy - Japan - Malaysia - Malta - MoroccoSingapore - Spain - Sweden - Switzerland - United Kingdom© 10/10。
IC功能速查
[IC功能速查] - 随缘的日志- 网易博客网易新闻CD4002BE TI 双4 输入端或非门DATACD4006 TI 18 位串入/串出移位寄存器DATACD4007BCN FSC 双互补对加反相器DATACD4009 TI 六反相缓冲/变换器DA TACD4010BE TI 六同相缓冲/变换器DATACD4010BCN FSC 六同相缓冲/变换器DATACD4011BCN FSC 四2 输入端与非门DATAMC14011BCP ON 四2 输入端与非门CD4012BE TI 双4 输入端与非门DATACD4013BCN FSC 双主-从D 型触发器DA TAMC14013BCP ON 双主-从D 型触发器CD4013BE TI 双主-从D 型触发器CD4014BCN FSC 8 位串入/并入-串出移位寄存器DATA CD4014BE TI 8 位串入/并入-串出移位寄存器CD4015BCN FSC 双4 位串入/并出移位寄存器DATECD4016BCN FSC 四传输门DATACD4017BCN FSC 十进制计数/分配器DATAMC14017BCN ON 十进制计数/分配器CD4018BE TI 可预制1/N 计数器DATACD4019BCN FSC 四与或选择器DATACD4020BCN FSC 14 级串行二进制计数/分频器DATAMC14020BCP ON 14 级串行二进制计数/分频器CD4021BCN FSC 08 位串入/并入-串出移位寄存器DATA HEF4021BP PHI 08 位串入/并入-串出移位寄存器CD4022BCN FSC 八进制计数/分配器CD4023BCN FSC 三3 输入端与非门DATACD4023BE TI 三3 输入端与非门DATACD4024BCN FSC 7 级二进制串行计数/分频器DATACD4025BE TI 三3 输入端或非门DATAHCF4026BE ST 十进制计数/7 段译码器CD4027BCN FSC 双J-K 触发器DATACD4028BCN FSC BCD 码十进制译码器DA TACD4029 FSC 可预置可逆计数器DATACD4030BCN FSC 四异或门DATACD4033BE TI 十进制计数/7 段译码器DATACD4034 TI 8 位通用总线寄存器DATACD4035 TI 4 位并入/串入-并出/串出移位寄存DATACD4038 三串行加法器CD4040BCN FSC 12 级二进制串行计数/分频器DATAMC14040BCP ON 12 级二进制串行计数/分频器CD4041 四同相/反相缓冲器HCF4042BE ST 四锁存D 型触发器CD4043BCN FSC 4 三态R-S 锁存触发器("1" 触发) DATACD4044BCN FSC 四三态R-S 锁存触发器("0" 触发) DATA CD4046BCN FSC 锁相环DA TACD4047BCN FSC 无稳态/单稳态多谐振荡器DA TACD4048BE TI 4 输入端可扩展多功能门CD4049UBCN FSC 六反相缓冲/变换器DA TACD4050BCN FSC 六同相缓冲/变换器DATADS1286 DALLASPT2240B-S PTCTLC3704CN TICD4050BE TI 六同相缓冲/变换器4051BF TI 八选一模拟开关DATACD4051BCN FSC 八选一模拟开关DA TAMC14051BCP ON 八选一模拟开关CD4052BCN FSC 双4 选1 模拟开关DATAMC14052BCP ON 双4 选1 模拟开关CD4053BCN FSC 三组二路模拟开关DATACD4053BE TI 三组二路模拟开关DATACD4054BE TI 液晶显示驱动器DA TACD4055BE TI BCD-7 段译码/液晶驱动器DA TACD4056BCN FSC 液晶显示驱动器DA TAHCF4058BE STCD4059BCN FSC “N”分频计数器DATACD4060BCN FSC 14 级二进制串行计数/分频器DATACD4060BE TI 14 级二进制串行计数/分频器CD4063 四位数字比较器CD4066BCN FSC 四传输门DATAMC14066BCP ON 四传输门CD4066BE TI 四传输门CD4067BE TI 16 选1 模拟开关DATAHEF4067BP PHI 16 选1 模拟开关CD4068BE TI 八输入端与非门/与门CD4069UBCN FSC 六反相器DA TACD4069UBE TI 六反相器MC14069UBCP ON 六反相器CD4070BCN FSC 四异或门DATACD4071BCN FSC 四2 输入端或门DA TACD4072BCN FSC 双4 输入端或门DA TACD4073BE TI 三3 输入端与门DA TAHEF4073BP PHI 三3 输入端与门CD4075BCN FSC 三3 输入端或门DA TACD4076BE TI 四D 寄存器DATACD4077BCN FSC 四2 输入端异或非门DA TACD4078BCN FSC 8 输入端或非门/或门DA TACD4081BCN FSC 四2 输入端与门DA TACD4082BE TI 双4 输入端与门DA TACD4085BCN FSC 双2 路2 输入端与或非门CD4086BE HAR 四2 输入端可扩展与或非门CD4089 二进制比例乘法器CD4093BCN FSC 四2 输入端施密特触发器DA TACD4094BCN FSC 8 位移位存储总线寄存器DA TAMC14094BCP ON 8 位移位存储总线寄存器CD4095 3 输入端J-K 触发器CD4096 3 输入端J-K 触发器CD4097BCN FSC 双路八选一模拟开关DA TAHCF4098BE ST 双单稳态触发器CD4099BCN FSC 8 位可寻址锁存器DATACD40101 9 位奇偶较验器CD40102 8 位可预置同步BCD 减法计数器CD40103BE TI 8 位可预置同步二进制减法计数器CD40104 4 位双向移位寄存器CD40105 先入先出FI-FD 寄存器CD40106BE TI 六施密特触发器CD40106BCN FSC 六施密特触发器DA TACD40107BE TI 双2 输入端与非缓冲/驱动器CD40108 4 字×4 位多通道寄存器CD40109BE TI 四低-高电平位移器HCF40110BE ST 十进制加/减,计数,锁存,译码驱动CD40147 10-4 线编码器CD40160 可预置BCD 加计数器CD40161 可预置4 位二进制加计数器CD40162 BCD 加法计数器CD40163 4 位二进制同步计数器CD40174BCN FSC 六锁存D 型触发器DA TACD40175BCN FSC 四D 型触发器CD40181 4 位算术逻辑单元/函数发生器CD40182 超前位发生器CD40192BCN FSC 可预置BCD 加/减计数器(双时钟) DATA CD40193BCN FSC 可预置4 位二进制加/减计数器DATA CD40194 4 位并入/串入-并出/串出移位寄存CD40195 4 位并入/串入-并出/串出移位寄存CD40208 4×4 多端口寄存器CD4501 4 输入端双与门及2 输入端或非门CD4502BE TI 可选通三态输出六反相/缓冲器CD4503BCN FSC 六同相三态缓冲器DATACD4504 六电压转换器CD4506 双二组2 输入可扩展或非门CD4508 双4 位锁存D 型触发器CD4510BE TI 可预置BCD 码加/减计数器CD4511BCN FSC BCD 锁存,7 段译码,驱动器DATA CD4512BCN FSC 八路数据选发器DA TACD4513 BCD 锁存,7 段译码,驱动器(消隐)CD4514BCN FSC 4 位锁存,4 线-16 线译码器DATA CD4515BCN FSC 4 位锁存,4 线-16 线译码器DATA CD4516 可预置4 位二进制加/减计数器CD4517 双64 位静态移位寄存器CD4518BE TI 双BCD 同步加计数器HEF4518BP PHI 双BCD 同步加计数器CD4519 四位与或选择器HEF4520BP PHI 双4 位二进制同步加计数器CD4521BE TI 24 级分频器CD4522BE TI 可预置BCD 同步1/N 计数器CD4526BP PHI 可预置4 位二进制同步1/N 计数器CD4527 BCD 比例乘法器CD4528BCN FSC 双単稳态触发器DA TACD4529 双四路/单八路模拟开关CD4530 双5 输入端优势逻辑门CD4531 12 位奇偶校验器CD4532 8 位优先编码器CD4536 可编程定时器MC14538BCP ON 精密双単稳态触发器CD4539 双四路数据选择器CD4541BCN FSC 可编程序振荡/计时器DA TACD4541BE TI 可编程序振荡/计时器CD4543BE TI BCD 七段锁存译码,驱动器HEF4543BP PHI BCD 七段锁存译码,驱动器CD4544 BCD 七段锁存译码,驱动器CD4547 BCD 七段译码/大电流驱动器CD4549 函数近似寄存器CD4551 四2 通道模拟开关MC14553BCP ON 三位BCD 计数器CD4555BE TI 双二进制四选一译码器/分离器CD4556 双二进制四选一译码器/分离器4558 KEC 双运算放大器RC4558P TI 双运算放大器CD4560 "N"BCD 加法器CD4561 "9"求补器CD4573 四可编程运算放大器CD4574 四可编程电压比较器CD4575 双可编程运放/比较器CD4583 双施密特触发器CD4584 六施密特触发器CD4585 4 位数值比较器CD4599 8 位可寻址锁存器NJM2120D JRC74LS00N FSC 四2 输入端与非门DATA74LS01 四2 输入端与非门(OC)74LS02N FSC 四2 输入端或非门DATA74LS03N FSC 四2 输入端与非门(OC) DA TA74LS04N FSC 六反相器DATA74LS05N FSC 六反相器(OC) DATA74LS06 六高压输出反相器(OC,30V)74LS07P HD 六高压输出缓冲,驱动器(OC,30V)74LS08N FSC 四2 输入端与门DA TA74LS09N FSC 四2 输入端与门(OC) DATA74LS10N FSC 三3 输入端与非门DATA74LS11N FSC 三3 输入端与门DA TA74LS13 双4 输入端与非门74LS14N FSC 六反相器DATA74LS15 三3 输入端与门(OC)74LS20N FSC 双4 输入端与非门DATA74LS21 双4 输入端与门74LS22 双4 输入端与非门(OC)74LS26 FSC 四2 输入端高压输出与非缓冲器DATA74LS27 FSC 三3 输入端或非门DATA74LS28N FSC 四2 输入端或非缓冲器DATA74LS30N FSC 8 输入端与非门DA TA74LS32N FSC 四2 输入端或门DA TA74LS33N FSC 四输入端或非缓冲器DATA74LS38N FSC 双二输入与非缓冲器DATA74LS40 双4 输入端与非缓冲器74LS47N FSC BCD 七段译码,驱动器DATA74LS51 FSC 2 路3-3 输入,2 路2-2 输入与或非门DATA 74LS54 4 路2-3-3-2 输入与或非门74LS55 2 路4-4 输入与或非门74LS73AN FSC 双J-K 触发器DA TA74LS74AN FSC 双上升沿D 型触发器DA TA74LS75N FSC 四位稳锁存器DATA74LS76 单D 型触发器74LS78 双D 型触发器74LS83AN FSC 4 位全加器(快速进位) DATA74LS85N FSC 4 位幅度比较器DA TA74LS86N FSC 四二进制原码/反码,0/1 单元DA TA74LS90N FSC 四位十进制波动计数器DATA74LS91 8 位移位寄存器74LS95 4 位移位寄存器74LS96 四2 输入端与非门74LS107 双主-从J-K 触发器74LS109 FSC 双J-K 触发器DATA74LS113 双下降沿J-K 触发器SN74LS122N TI 单稳态多谐振荡器(可再触发)74LS123N FSC 可重触发双稳态触发器DA TA74LS125AN FSC 四总线缓冲器DA TA74LS132N FSC 四2 输入端与非门DA TA74LS137 地址锁存3 线-5 线译码器74LS138P HIT 3 线-8 线译码器74LS138N FSC 3 线-8 线译码器DATA74LS139N FSC 双2 线-4 线译码器DA TA74LS145P HTI BCD 一十制译码器/驱动器74LS147 10 线-4 线优先编码器74LS148 8 线-3 线优先编码器74LS154N FSC 4 线-16 线译码器DATA74LS155N FSC 双2-4 线译码/多路解码器DATA 74LS156N FSC 双2 线-4 线译码器OC DATA74LS157N FSC 四2 选1 数据选择器(原码) DATA 74LS158 FSC 四2 选1 数据选择器DATA74LS160 十进制同步计数器74LS161N FSC 4 位二进制同步计数器DATA74LS162 十进制同步计数器74LS163AN FSC DATA74LS164N FSC 8 位移位寄存器DA TA74LS165N FSC DATA74LS166N FSC 8 位移位寄存器DA TA74LS168 十进制同步加/减计数器74LS169AN FSC 4 位二进制同步加/减计数器DA TA 74LS173 4 位D 型寄存器74LS174N FSC DATA74LS175 FSC 四上升沿D 型触发器DA TA74LS176N FSC74LS181 FSC 4 位算术逻辑单元/函数产生器DA TA 74LS190 十进制同步加/减计数器74LS191 FSC 4 位二进制同步加/减计数器DATA 74LS194N FSC 4 位双向移位寄存器DA TA74LS195 4 位移位寄存器74LS196 可预置二-五-十进制计数器74LS197 二-八-十六进制计数器74LS221N FSC 双单稳态触器DA TA74LS240N FSC 八反相缓冲/线驱动/线接收器DATA 74LS241N FSC 八缓冲/线驱动/线接收器DA TA74LS242 四总线收发器(反码三态)74LS243N FSC 四总线收发器DA TA74LS244N FSC 八缓冲/线驱动/线接收器DA TA74LS245N FSC 八双向总线发送/接收器DA TA74LS247P HIT 4 线-7 段译码/高压输出驱动器74LS248 4 线-7 段译码/驱动器74LS251N FSC 8 选1 数据选择器DA TA74LS253N FSC 双4 选1 数据选择器DATA74LS257BN FSC 四2 选1 数据选择器DATA74LS258 四2 选1 数据选择器74LS259N FSC DATA74LS260 双5 输入端或非门74LS266N FSC DATA74LS273N FSC 八D 触发器(公共时钟,单边输出) DATA 74LS279N MOC74LS279N FSC DATA74LS283N FSC 4 位二进制超前位全加器DA TA74LS299N FSC 8 位双向通用移位/存储寄存器DATA 74LS365N FSC 六总线驱动器DA TA74LS367N FSC 六总线驱动器DA TA74LS373N FSC 八D 锁存器DATA74LS374N FSC 八上升沿D 型触发器DA TA74LS377N FSC 六上升沿D 型触发器DA TA74LS386 四2 输入端异或门74LS390N FSC 双十进制计数器DATA74LS393N FSC 双4 位二进制计数器DATA74LS540 8 三态缓冲器(反相)74LS573N FSC 四3 选1 数据选择器DATA74LS574N FSC 双4 选1 数据选择器DATA74LS669 可预置同步加减二进制计数器XC95144 XLTQ100-10C XILINX74LS688N MOT 八位数据等值比较器74S08N TI 四2 输入端与门74HC00N FSC 四2 输入端与非门DATA74HC00P HD 四2 输入端与非门74HC02N FSC 四2 输入端或非门DATA74HC03 四2 输入与非门OC74HC04 FSC 六反相器DA TA74HC08N FSC 四2 输入端与门DATA74HC10BIR ST 三3 输入与非门74HC11 三3 输入与门74HC14N FSC 六反相器DATA74HC14 HD 六反相器74HC20 双4 输入与非门74HC21 双4 输入与门74HC27 三3 输入或非门74HC30 8 输入与非门74HC32N FSC 四2 输入端或门DATA74HC42 4 线-10 线译码器74HC73 4-3-2-2 输入与或非门74HC74AN FSC 双上升沿D 型触发器DA TA74HC86N FSC 四二进制原码/反码,0/1 单元DA TA 74HC93 双4 输入端与非门74HC107N PHI 双主-从J-K 触发器74HC109 双J-K 触发器74HC112 双下降沿J-K 触发器74HC123AN FSC 可重触发双稳态触发器DATA 74HC125N PHI 四总线缓冲器74HC125N FSC 四总线缓冲器DA TA74HC126N FSC 四总线缓冲器DA TA74HC132N FSC 四2 输入端与非门DATA74HC137 地址锁存,3 线-8 线译码器74HC138P HIT / HD 3 线-8 线译码器74HC138N FSC 3 线-8 线译码器DATA74HC139N FSC 双2 线-4 线译码器DATA74HC147 10 线-4 线优先编码器74HC148N FSC 8 线-3 线优先编码器DATA74HC151N FSC 8 选1 数据选择器DA TA74HC153 双4 选1 数据选择器74HC154N FSC 4 线-16 线译码器DA TA74HC155 双2 线-4 线译码器74HC157N FSC 四2 选1 数据选择器DATA74HC158 四2 选1 数据选择器(反码输出)74HC160 十进制同步计数器74HC161N FSC 4 位二进制同步计数器DATA74HC162 十进制同步计数器74HC163N FSC 4 位二进制同步计数器DATA74HC164N FSC 8 位移位寄存器DATA74HC165N FSC 8 位移位寄存器DATA74HC166 8 位移位寄存器74HC173 4 位D 型寄存器74HC174N FSC 六上升沿D 型发器DATA74HC175N FSC 四上升沿D 型触发器DA TA74HC181 4 位算述逻辑单元/函数生器74HC182 超前进制产生器74HC190 十进制加/减计数器74HC191 4 位二进制加/减计数器74HC192E TI 十进制加/减计数器(双时钟)74HC193 4 位二进制加/减计数器(双时钟)74HC194 4 位双向移位寄存器74HC195 4 位移位寄存器74HC221AN FSC 双单稳态触器DATA74HC237 3-8 线译码器(带地址锁存)74HC238 PHI 3-8 线译码器74HC240N FSC 八反相缓冲/线驱动/线接收器DATA 74HC241 八缓冲/线驱动/线接收器74HC242 四总线收发器74HC243 四总线收发器74HC244N FSC 八缓冲/线驱动/线接收器DA TA74HC245AN FSC 八双向总线发送/接发器DATA74HC251N FSC 8 选1 数据选择器DA TA74HC253 双4 选1 数据选择器74HC257 四2 选1 数据选择器74HC258 四2 选1 数据选择器74HC259N FSC 8 位可寻址锁存器DATA74HC273N FSC 八D 触发器DATA74HC280 9 位奇偶产生器/校验器74HC283 4 位二进制超位全加器74HC299 8 位双向通用移位/存储寄存器74HC354 带锁存三态8-1 多路转换开关74HC356 带锁存三态8-1 多路转换开关74HC365N FSC 六总线驱动器74HC366 六反相总线驱动器74HC367 六总线驱动器74HC368 六反相总线驱动器74HC373N FSC 六D 型锁存器DA TA74HC374N FSC 六上升沿D 型触发器DA TA74HC377E TI 六上升沿D 型触发器74HC390 FSC 双十进制计数器DATA74HC393N FSC 双4 位二进制计数器DATA74HC423 双单稳态触发器DA TA74HC533 三态八D 锁存器74HC540N FSC 八路三态收发缓冲器(反相)DATA 74HC541E TI 八路三态收发缓冲器(同相)DA TA 74HC541N FSC 八路三态收发缓冲器(同相)74HC573N FSC 四3 选1 数据选择器74HC573N PHI 四3 选1 数据选择器DATA74HC574N FSC 双4 选1 数据选择器DATA74HC595N FSC 输出暂存8 位计数器DATA74HC595BIR ST 输出暂存8 位计数器74HC640 八路三态收发缓冲器74HC646 八总线收发器/寄存器(同相)74HC670 4×4 寄存器74HC688N FSC 8 位数据等值比较器DATA74HC4002 双4 输入端或非门74HC4015 双4 位串入/并出移位寄存器74HC4016 四传输门74HC4017 十进制计数/分配器74HC4020N FSC 14 级串行二进制计数/分频器DATA74HC4024 7 位二进制串行计数/分频器74HC4040N FSC 12 级二进制计数器DATA74HC4046N FSC 锁相环DATA74HC4049N FSC 六反相缓冲/变换器DA TA74HC4050N FSC 六同相缓冲/变换器DA TA74HC4051N FSC 8 选1 模拟开关DATA74HC4052N FSC 双4 选1 模拟开关DATA74HC4053N FSC 三2 选1 模拟开关DATA74HC4060BIR ST 14 级二进制串行计数/分频器74HC4060N FSC 14 级二进制串行计数/分频器DATA74HC4066BIR ST 四双相模拟开关74HC4066N FSC 四双相模拟开关DATA74HC4094BIR ST 8 位移位存储总寄存器74HC4515E HAR 4 至6 译码器74HC4538N FSC 双精密单稳态触发器DATA74HC4543E HAR 7 段锁存/译码/驱动器74HCT00N FSC 四2 输入与非门DATA74HCT02E HAR 四2 输入与非门74HCT04N FSC 六反相器DA TA74HCT08N PHI 四2 输入与门DA TA74HCT10E HAR 三3 输入端与非门74HCT14N FSC 六反相器/斯密特触发DATA74HCT20E HAR 双4 输入与非门74HCT32E FSC 四2 输入端或门DATA74HCT73E HAR 4-3-2-2 输入与或非门74HCT74N FSC 双上升沿D 型触发器DA TA74HCT75E HAR74HCT86E HAR 四二进制原码/反码,0/1 单元74HCT132E HAR 四2 输入端与非门74HCT138N FSC 3 至8 线译码/解调器DA TA74HCT139EX HAR 双2 至4 线译码/解调器74HCT164N FSC 8 位移位寄存器DATA74HCT175E HAR 四上升沿D 型触发器74HCT240N FSC 八反相缓冲/线驱动/线接收器DA TA74HCT244N FSC 八总线三态输出缓冲器DATA74HCT245N FSC 八总线接收器DATA74HCT251ES HAR 8 选1 数据选择器74HCT273N FSC 八D 触发器(公共时钟,单边输出) DA TA 74HCT365E HAR 六总线驱动器74HCT373N FSC 8D 锁存器DATA74HCT374N FSC 8D 触发器DATA74HCT390E HAR 双十进制计数器74HCT540N FSC 双4 选1 数据选择器DA TA74HCT541N FSC 双4 选1 数据选择器DA TA74HCT573N FSC 8 位三态输出D 型锁存器DATA 74HCT574N FSC 双4 选1 数据选择器DA TA74HCU04N FSC 六反相器DA TA74F00 TI 四2 输入端与非门74F02 NS 四2 输入端或非门74F08 NS/ON 四2 输入端与门74F10 三3 输入端与非门74F11 TI/MOT 三3 输入端与门74F30 NS 8 输入与非门四2 输入端或门74F32 NS 四2 输入端或门74F74 TI 双上升沿D 型触发器74F86 MOT 四二进制原码/反码,0/1 单元74F109 双J-K 触发器74F139-D PHI 双2 线-4 线译码器74F153 TI 双4 选1 数据选择器74F157 四2 选1 数据选择器74F175 MOT 四上升沿D 型触发器74F241 八缓冲/线驱动/线接收器74F244 PHI/大S 八缓冲/线驱动/线接收器74F251 8 选1 数据选择器74F573 NS 四3 选1 数据选择器74S00 四2 输入端与非门74S74 双上升沿D 型触发器7406N FSC 六高压反相器OC,30V7407N FSC 六高压输出缓冲/驱动器7414 六反相器SN7438N TI7445N FSC75107BN TI75174N TI 四差分驱动器75175N TI 三态四差分接收器75176BN NS 差分总线接收器75176BP TI 差分总线接收器75LBC184P TI75372P TI75451N NS 双外围驱动器75452N NS 双外围"与非"门驱动器75492 NS MOS-LED 六字段驱动器LM124J NS 低功耗四运算放大器(军用档) DA TALM139J NS 电压比较器DATALM224J NS 低功耗四运算放大器(工业档) DA TALM258N ST 通用型双运算放大器DATALM301AN NS 运算放大器DATALM305H NS 高精度可调4.5Vto40v 稳压器LM308H NS 运算放大器(金属封装)DA TALM308N NS 运算放大器DA TALM311N NS 单电压比较器DATALM317K NS 1.2Vto37V 三端正可调稳压器(1.5A) DATA LM317LZ FSC 1.2Vto37V 三端正可调稳压器(0.1A)LM317LZ NS 1.2Vto37V 三端正可调稳压器(0.1A) DATA LM317T ON 1.2Vto37V 三端正可调稳压器(1.5A)LM317T NS 1.2Vto37V 三端正可调稳压器(1.5A) DATA LM318N NS 高速运算放大器DA TALM319N NS 高速双比较器DATALM323K NS 精密5V 稳压器( 3A ) DATALP324N NS 四运算放大器DATALM324N NS 四运算放大器DATAHA17324 HIT 四运算放大器LM331N NS 精密电压频率转换器DA TAKA331 FSC 精密电压频率转换器LM334Z NS 可调整的当前的来源DATALM336Z-2.5 FSC 2.5V 精密基准电压源LM336Z-5.0 FSC 5.0V 精密基准电压源LM336Z-2.5 NS 2.5V 精密基准电压源DATALM336Z-5.0 NS 5.0V 精密基准电压源DATAKA336-5.0 KA 5.0V 精密基准电压源DATALM337LZ NS 三端可调-1.2Vto-37V 稳压器(0.1A) DATA LM337T FSC 三端可调-1.2Vto-37V 稳压器(1.5A)LM337T NS 三端可调-1.2Vto-37V 稳压器(1.5A) DA TA LM337K NS 三端可调-1.2Vto-37V 稳压器(1.5A) DA TA LM338K NS 三端正可调1.2Vto32V 稳压器(5A) DATA LM339N TI 四电压比较器DA TALM339N NS 四电压比较器DATALF347N NS 带宽四运算放大器DATALF347N FSC 带宽四运算放大器LM348N FSC 四运算放大器LM348N NS 四运算放大器DATALM350T FSC 三端可调1.2Vto32V 稳压器DATALF351 NS BI-FET 单运算放大器DATALF353N FSC BI-FET 双运算放大器LF353N NS BI-FET 双运算放大器DA TALF356N NS BI-FET 单运算放大器DA TALM358N NS 通用型双运算放大器DA TALM358P TI 通用型双运算放大器LM35DZ NS 精密温度传感器DA TALM335Z NS 精密温度传感器DATALM380N NS 音频功率放大器DA TALM285Z-2.5 NS 2.5V 精密基准电压源(工业档)LM385Z-1.2 =8069 NS/FSC 1.2V 精密基准电压源DA TALM385Z-2.5 NS/FSC 2.5V 精密基准电压源DATALM386-1 NS 音频放大器DA TALM386-3 NS 音频放大器DA TALM392N NS DATALM393N NS 低功耗低失调双电压比较器DATALM393P TI 低功耗低失调双电压比较器LF398N NS 采样保持放大器DATALM399H NS 6.9999V 电压基准源DATALF411CN NS BI-FET 单运算放大器DATALF412CN NS BI-FET 双运放大器DATALF441CN NS 低功能耗JEFI 输入远放LF442CN NS 双低功能耗JEFI 输入远放DATALF444CN NS BI-FET 四运算大器DATALM555CN NS FSC 单时基电路DA TA17555 HD 单时基电路NE555P TI 单时基电路NE556N ST 双时基电路LM556CN FSC 双时基电路LM567CN NS 音频译码器DATALM709CN NSLM723CN NS 高精度可调2Vto37V 稳压器DATALM725 NS 高精度运算放大器DA TAUA733 NS/TI 带宽运算放大器DA TALM741CN FSC 通用型运算放大器DA TALM833N NS DATALM1203AN NS 视频放大器LS1240A ST 电话振铃集成电路LM1458N NS 双运算放大器DATALM1851 NS DATALM1875T NS 音频功率放大器DA TALM1881N NS DATALM2574HVN-5 NSLM2575T-5.0 NS 5V 简易开关电源稳压器(1A) DATALM2576T-5.0 NS 5V 简易开关电源稳压器(3A) DATALM2576T-ADJ NS 可调1.23Vto37V 简易开关电源稳压器(3A) DATALM2576S-5.0 NS 5V 简易开关电源稳压器( 3A ) DATALM2576HVT-ADJ NS 高压输入可调1.23Vto37V 简易开关电源稳压器(3A) DA TA LM2577S-ADJ NS 简易开关电源稳压器( 可调)LM2901N NS 低功耗低失调四电压比较器DATALM2902N. NS 四运算放大器DATALM2903N NS FSC 低功耗低失调双电压比较器DATALM2904N NS FSC 双运放大器DA TALM2907N NS 频率电压转换器DA TALM2931AZ NS 5.0V 低压差稳压器( TO-92 ) DATALM2931T-5.0 NS 5.0V 低压差稳压器DATALM2931CT NS 3Vto29V 低压差稳压器DA TALM2940CT-12 NS 12V 低压差稳压器DATALM2940CT-5.0 NS 5.0V 低压差稳压器DATALM3086N NS 三极管阵列LM3886 NS 音频大功率放大器DA TALM3900 四运算放大器LM3914N NS 点/线显示驱动器LM3914N-1 NS 点/线显示驱动器DATALM3915N NS 点/线显示驱动器LM3915N-1 NS 点/线显示驱动器DATALM3916N NS 点/线显示驱动器DA TALM4752T NS 音频功率放大器DA TALMC6032IN NSKA3848 FSC KAMNE5532N FSC 高速低噪声双运算放大器NE5532P TI 高速低噪声双运算放大器DATAHSM5832RS -7 OKIHSM6242BRS-7 OKIKA75330ZBU FSCTL062CP TI BI-FET 双运算放大器TL064CN TI BI-FET 四运算放大器TL072CP TI BI-FET 双运算放大器DA TATL074CN TI BI-FET 四运算放大器DATATL082CP TI BI-FET 双运算放大器DA TATL084CN ST BI-FET 四运算放大器TL084CN TI BI-FET 四运算放大器DATATLC272 TI 双路运算放大器DATALMC272 NS 双路运算放大器LM431ACZ FSC 精密可调2.5Vto36V 基准稳压源DATA LM431ACZ NS 精密可调2.5Vto36V 基准稳压源DA TATL431CLP TI 精密可调2.5Vto36V 基准稳压源DATATL494CN TI 脉宽调制开关电源控制器DA TATL7705ACP TI 电池供电/欠压控制器DATATL7705ACD TI 电池供电/欠压控制器DATA4N25 FSC /QTC 光电藕合器(晶体管输岀) DATA4N26 FSC /QTC 光电藕合器(晶体管输岀) 晶体管输岀DATA 4N27 FSC /QTC 光电藕合器(晶体管输岀) DATA4N28 FSC /QTC 光电藕合器(晶体管输岀) DATA4N30 FSC /QTC 光电藕合器(达林顿输出) DATA4N33 FSC /QTC 光电藕合器(达林顿输出) DATA4N35 FSC /QTC (达林顿输出) 光电藕合器DA TA4N36 FSC /QTC 光电藕合器(达林顿输出) 光电藕合器DATA4N37 FSC /QTC 光电藕合器(达林顿输出) 光电藕合器DATA4N38 TOS 光电藕合器(达林顿输出) 电藕合器4N39 TOS 光电藕合器(可控硅驱动器输岀) 光电藕合器4N40 TOS 光电藕合器(可控硅驱动器输岀) 可控硅驱动器输岀光电藕合器6N135 FSC /QTC 光电藕合器6N136 FSC /QTC 光电藕合器(带晶体管缓冲器)6N137 FSC /QTC 高速光电藕合器(带TTL 缓冲器)6N138 FSC /QTC 光电藕合器(带达林顿缓冲器)6N139 FSC /QTC 光电藕合器(带达林顿缓冲器)MOC8106 FSC 光电藕合器MOC3010 FSC/QTC 非过零触发可控硅输出光电耦合器DA TAMOC3011 FSC/QTC 非过零触发可控硅输出光电耦合器DATAMOC3020 FSC/QTC 非过零触发可控硅输出光电耦合器DA TAMOC3021 FSC/QTC 非过零触发可控硅输出光电耦合器DA TAMOC3022 FSC/QTC 非过零触发可控硅输出光电耦合器DA TAMOC3023 FSC/QTC 非过零触发可控硅输出光电耦合器DA TAMOC3041 FSC/QTC 过零触发可控硅输出光电耦合器DATAMOC3042 FSC/QTC 过零触发可控硅输出光电耦合器DATAMOC3043 FSC/QTC 过零触发可控硅输出光电耦合器DATAMOC3052 FSC/QTC 过零触发可控硅输出光电耦合器DATAMOC3061 FSC/QTC 过零触发可控硅输出光电耦合器DATAMOC3062 FSC/QTC 过零触发可控硅输出光电耦合器DATAMOC3063 FSC/QTC 过零触发可控硅输出光电耦合器DATAMOC3081 FSC/QTC 过零触发可控硅输出光电耦合器DATAMOC3082 FSC/QTC 过零触发可控硅输出光电耦合器DATAMOC3083 FSC/QTC 过零触发可控硅输出光电耦合器DATACA3046 ITS 通用晶体管阵列前置放大器大电流晶体管阵列晶体管阵列CA3080E ITS 前置放大器CA3083 ITS 大电流晶体管阵列CA3089E ITS 晶体管阵列CA3130E ITS 高输入阻抗运算放大器CA3140E ITS 高输入阻抗运算放大器CA3161E ITSCA3162E ITSCA3240E ITSCA3306CE ITSCD22M3494E ITSTIL113 QTC 光电藕合器(达林顿输出)TIL117 QTC 晶体管输岀光电藕合器TIP122 ST 达林顿三极管PNPTIP127 ST 达林顿三极管NPNOP07CP TI 低噪声精密运算放大器DA TAOP27GP AD/TI 超低噪声精密运算放大器OP37GP 超低噪声精密运算放大器OP37[ ] 超低噪声精密运算放大器PS2501 NEC 光电藕合器DA TATLP521-1 TOS 晶体管输岀光电藕合器DA TATLP521-2 TOS 晶体管输岀(2 路) DATAPC817 SHARP 光电藕合器DATAKPC817D COSMO 光电藕合器H11A817 QTC 光电藕合器DATAH11A817A QTC 光电藕合器DATAH11A817B QTC 光电藕合器DATAH11A817C QTC 光电藕合器DATATLP621 光电藕合器PS2501 NEC 光电藕合器DA TAHM9270D HMC DTMF 解码器HIN232CP ITS 232 接口ICL232CPE HAR 232 接口ICL7106CPL ITS 单片三位半双积分A/D, 驱动LCD ICL7107CPL ITS 单片三位半双积分A/D, 驱动LED ICL7109 二进制输出积分型A/D 转换器ICL7116CPL ITS 单片三位半双积分A/D, 驱动LCD ICL7126CPL ITS 10MHZ 通用频率计数器IDT7135-55P IDTICL7135CN TI 单片三位半双积分A/D, 驱动LCD ICL7135CPI ITS 单片三位半双积分A/D, 驱动LCD ICL7136CPL ITS BCD 输出积分型A/D 转换器ICM7211AIPI ITSICM7211AMIPI ITSICM7216DIPI ITSICM7218DIJI ITSICM7218AIJI ITSICM7232 HIRICM7555IPA ITS CMOS 低功耗单时基电路ICM7556IPD ITS CMOS 低功耗双时基电路ICL7650SCPD ITS 斩波稳零放大器ICL7660SCPA ITS CMOS 直流转换器ICL7665SCPA ITSHUF76121P3 ITSICL8038CCPD ITS 锯齿波发生器ICL8069 1.2V 基准源IRFP250 IRIRFP460 IRBTA41-600 STBT137 600V0.5W12V KELADSP-21060CZ-160 ADAD590JH ITS 宽范围温度传感器AD7520JN ITS 10 位,COMOS 数摸转换器H11-574AJD-5 ITSMC1403P1 ON 5.0V 基准源MC1413P ON 七重达林顿管驱动器VD5026 VD 遥控编码器VD5027 VD 遥控译码器VD5028 VD 遥控译码器AT89S52-24PC ATMEL 8K×8 位FLASH 单片机DA TA MC145026P ON 编码器MC145027P ON 译码器MC145028P ON 译码器MC1496P ON 平衡调制/解调器MC14433 三位半A/D 转换器MC146818 MC 计时器MC14467PI MOT 烟雾要检器(电池式)MC145167P MOT 双PLL(46/49MHZFS( 无绳电话用) MC33039P MOT 闭环无刷电机适配器MC33063AP1 ON DC-DC 转换控制电路MC34063AP1 ON 充电控制器MC68000P10 MOTMC6850P MOTMC68B40P MOTDS1488N NS 四线路驱动器DATADS1489AN NS 四线路接收器DA TAMF10CCN NSTL3842P TI 电流式控制器DATAUC3842AN MOT 电流式控制器3844 MC 电流式控制器TDA2003 ST 音频功率放大器TDA2003 UTC 音频功率放大器ULN2003AN TI 七重达林顿管驱动器DATATA2003P TOSULN2003AN TI 七重达林顿管驱动器DATAULN2004A TI 七重达林顿管驱动器DATATDA2030A ST 音频功率放大器TDA2030 UTC 音频功率放大器TA8227 UTCTD62003AP TOS 七重达林顿管驱动器ULN2803AP TOS 八重达林顿管驱动器LM3524 NS 脉宽调制开关电源控制器DATASG3524N TI 脉宽调制开关电源控制器SG3525AN ON 开关电源控制器UPD7225G00 NECZ80CPU ZILOG 8 位中央处理器(时钟2.5MHZ)Z80PIO ZILOG 并行输入输出接口Z80CPC ZILOGZ80-CTC 定时器/计数器Z80A-SIO-0 串行输入输出接口Z84C4006PEC ZILOGTP3057N NS Interface CODEC/Filter COMBO DATATP3067N NSTP3054BN TI Interface CODEC/Filter COMBO DATATP3071N-G NS COMBO II Programmable PCM CODEC/Filter TPIC6B273N TITPIC6B595N TI 译码+七重达林顿管驱动器CM8870PI CMD 综合DTMF 接收器CM8880PI CMD 综合DTMF 发生接收器MT8880AE MT 综合DTMF 发生接收器CM8888PI CMDMT8888 MTMT8920BE MTMT8924BE MTMT8941BE MTMT8952BE MTMT8965 MTMT8980DE MTMT8985AE MTMT9041BP MTMT9042BP MTMT9075BP MTMT90820AL MTSAA7111AH PHI2716 2K×8 EPROM27C16 2K×8 EPROM(CMOS)2732 4K×8 EPROM27C32 4K×8 EPROM(CMOS)27128 ST 16K×8 EPROM27C128 ST 16K×8 EPROM2764A-2F1 ST 8K×8 EPRROM27C64A-15F1 ST 8K×8 EPROM(CMOS)27C256B-12F1 ST 32K×8 EPROM(CMOS)27C512Q120 NS 64K×8 EPROM(CMOS)M5M27C201K-12 三凌256K×8 EPROM(CMOS)27C040-1500C 512K×8 EPROM(CMOS)27C4001-10F1 ST 512K×8 EPROM(CMOS)27C8001-10F1 ST 1024K×8 EPROM(CMOS)27C1001-12F1 ST 128K×8 EPROM(CMOS)27C2001-10F1 ST 256K×8 EPROM(CMOS)27C4001-10F1 ST 512K×8 EPROM(CMOS)TLC27L2CDR TI27C4000D-15 NEC 512K×8 EPROM(CMOS)27C1024 ST28F256 AMD/INTEL 32K×8 EPROM(CMOS)28F512 AMD/INTEL 64K×8 EPROM(CMOS)PA28F800B5T70 INTEL29F010B-70JC AMD 128K×8 FLASH29F010B-90PC AMD 128K×8 FLASH29F040B-70JC AMD 512K×8 FLASH29F040B-90PC AMD 512K×8 FLASH29EE010-150-4CF SST 128K×8 FLASH27SF020-70-4C-NH SST 256K×8 EPROM(CMOS)W78E52B-24/-40 Winbond 8K×8MTPROM,256×8RAM DATAW78E58B-24/-40 Winbond 32K×8MTPROM,256×8RAM DATAW78E58BP-40 Winbond 32K×8MTPROM,256×8RAM DATAW78E58BF-40 Winbond 32K×8MTPROM,256×8RAM DATAW78E516B-24/-40 Winbond 64K×8 掩膜ROM,512×8RAM DATAW78E516BP-40 Winbond 64K×8 掩膜ROM,512×8RAM DA TAW78E516BF-40 Winbond 64K×8 掩膜ROM,512×8RAM DA TAW78LE516B-24 Winbond 低压64K×8 掩膜ROM,512×8RAM DATA W77E58-40 Winbond 32K×8MTPROM,(1K+256)×8RAM DATAW77LE58 Winbond 低压.32K×8MTPROM,(1K+256)×8RAMW77E58P-40 Winbond 32K×8MTPROM,(1K+256)×8RAM DATAW77LE58P-40 Winbond 低压.32K×8MTPROM,(1K+256)×8RAMW24258-70LL Winbond 低压.32K×8 位CMOS SRAMW27C512-45 Winbond 32K×8 位EPROMW27C020-70 Winbond 256K×8 位EPROMW27E040-12 Winbond 512K×8 位EPROMW29C011A-15 Winbond 128K×8 位FIASHW29EE011P-90 Winbond 128K×8 位FIASHW29C020C-90B Winbond 256K×8 位FIASHW29C040-90 Winbond 512K×8 位FIASHW29C040P-90 Winbond 512K×8 位FIASHDS26LS31CN NS DA TADS26LS32ACN NS DATAAD574AJD AD 12 位逐次比较型A/D 转换器AD7501 AD 多路转换开关AD7513 AD 多路转换开关DAC0800LCN NS D/A 转换器DA TAADC0804LCN NS A/D 转换器DA TAADC0808 NS 多输入逐次比较型A/D 转换器DA TADAC0808LCN NS 8 位双极性电流输出型D/A 转换器DATA ADC0809CCN NS 多输入逐次比较型A/D 转换器DATA ADC0820CCN NS A/D 转换器DA TAADC0832CCN NS 8 位CMOS 型A/D 转换器DATADAC0832LCN NS 8 位CMOS 型D/A 转换器DA TADAC1210 12 位CMOS 型D/A 转换器N80C196KB16 INTEL 16 位CMOS 微处理器N80C196KC20 INTEL 16 位CMOS 微处理器N87C196MC INTEL 16 位CMOS 微处理器N87C196MH INTEL 16 位CMOS 微外处理器P80C31BH-1 INTEL MCS-51 系列8 位单片机(CMOS)80C32-1 INTEL MCS-51 系列8 位单片机8155 NEC 带I/O 口及计时器的随机存储器81C55 OKI 带I/O 口及计时器的随机存储器8251 NEC 可编程序通信接口82C51 OKI 可编程序通信接口8253 NEC 可编程序计时器(CMOS)82C53-2RS OKI 可编程序计时器(CMOS)82C54-2RS OKI 可编程控制器(CMOS)8255AC-2 NEC 可编程外设接口82C55AC-2 NEC 可编程外设接口82C79P-2 TOS 可编程键盘/显示接口PCF8583P PHILPGP-3.6V GP 3.6V 充电电池7805T. ST 正5V 稳压器(1A) DA TA7805 NS 正5V 稳压器(1A) DATA7805 ON 正5V 稳压器(1A)7806T ST 正6V 稳压器(1A) DA TA7806CT ON 正6V 稳压器(1A)7808T ST 正8V 稳压器(1A) DA TA7809CT ON 正9V 稳压议(1A)7812T ST 正12V 稳压器(1A) DA TA7812 NS 正12V 稳压器(1A) DA TA7815T ST 正15V 稳压器(1A) DA TA7818T ST 正18V 稳压器(1A) DA TA7824T ST 正24V 稳压器(1A) DA TA7905T ST 负5V 稳压器(1A)7908T ST 负8V 稳压器(1A)7912T ON 负12V 稳压器(1A)7912T ST 负12V 稳压器(1A)7912CT NS 负12V 稳压器(1A) DATA78L05ACZ NS 正5V 稳压器(100ma) DATA78L05 HTC 正5V 稳压器(100ma)79L08 KNS 负8V 稳压器(100ma)LM79L05 HTC 负5V 稳压器(100ma)79L15ACZ NS 负15V 稳压器(100ma) DATA1N4148 ST KEL 二极管1N4733A KEL 二极管1N4739A KEL 二极管1N5817 KEL 二极管EL-1L7 发射二极管1.5KE24CA 台湾康可1N5048 黑二极管MBR2045 MOC 三极管HT12-E HTHT12-D HT47V2W 稳压二极管47V1W 二极管3296 W-1-104 电位器HA1-2540-5 HAR平拨DIP 8 位开关MAX660CPA MAX 100mA 电泵电压装换器LT1016 LTL297 STL298 STAT89C4051-24PI ATMELADC0801LCN NS A/D 转换器DA TADAC0801LCN NS D/A 转换器TC7652CPD TelcomADS774JP BBDCP010512DBP BBDCP010505BP BBVFC32KP BB 500KHz 压频或频压转换器VFC32KN AD 500KHz 压频或频压转换器TL7705AIP TI 电池供电/欠压控制器DATATL7705BCP TI 电池供电/欠压控制器DATA74HCT4520D PHI 高速CMOS 双4 位二进制同步加计数器AD7705BN AD 串行两通道,16 位ADCCF775-04/P microchip 单片机MAX1232CPA MAX 微处下器监视器AD637JQ AD 高精度,有效值直流放大器MAX3232 MAX 3V,具0.1uf 外接电容的,双组RS-232 接收发送器AT89C1051-24PC ATMEL 1K×8 位FLASH 单片机MAX707CPA MAX 带有掉电报警复位器MC3302P ONDS9636ACN NS DA TATOP222Y TOP 电源ICTL5615 TIEM78P447SAP EMC 单片机EM78P447SBP EMC 单片机PIC16F73-I/SP microchip 单片机HT7044A HOLTEK 电压检测器TDA2822 STXR2211ACP XR DATAX5045P XR66507613L296 STL4960 ST 开关电源稳压器2.5AAT89C51-24PC ATMEL 4K×8 位FLASH 单片机DA TAAT89C52-24PC ATMEL 8K×8 位FLASH 单片机DA TAAT89C2051 ATMEL 2K×8 位FLASH 单片机DATAAT28C16-15PC ATMEL 2K×8 EEPROMDQ2817A-250 2K×8 EEPROMAT28C64B-15PC A TMEL 8K×8 EEPROMAT28C256 ATMEL 串行EEPROM(256K,32K×8)AT24C01 ATMEL 串行EEPROM(1K,128×8)DATAAT24C02 ATMEL 串行EEPROM(2K,256×8)DATAAT24C04 ATMEL 串行EEPROM(4K,512×8)DATDAT24C08 ATMEL 串行EEPROM(8K,1024×8)DA TAAT24C16 ATMEL 串行EEPROM(16K,2048×8)DATA24C32 串行EEPROM(32K,4096×8)AT24C64 ATMEL 串行EEPROM(64K,8192×8)AT24C256 ATMEL 串行EEPROM 256K(32,768×8)DA TAAT90S2313-4SC A TMELAT90S8515-8P ATMELAT45DB041B-R1 ATMELAT93C46-10PC2.7 ATMEL 串行EEPROM(1K 128×8 or 64×16)DATA AT93C56-10PC ATMEL 串行EEPROM(2K,256×8 or 128×16)DATA 93C66 串行EEPROM(4K,512×8 or 256×16)DATAPIC16C505-04/P microchip 单片机PIC16C505/JW 多次microchip 单片机PIC16C73B-04I/SP microchip 单片机PIC16C57C-04/P microchip 单片机PIC16C54C-04/P microchip 单片机PIC16C54-RC/P microchip 单片机PIC16C56-RC/P microchip 单片机PCB80C552-5-10WP=P80C552EBA38.0//2709[3681854microchip 单片机PCF80C552-5-10WP=P80C552EEA microchip 单片机24LC01B\P microchip 串行EEPROM(1K,128×8 ) 低功耗24LC02B\P microchip 串行EEPROM(2K,256×8 ) 低功耗24LC04B\P microchip 串行EEPROM(4K,512×8 ) 低功耗24LC08B\P microchip 串行EEPROM(8K,1024×8 ) 低功耗24LC16B\P microchip 串行EEPROM(16K,2048×8 ) 低功耗24LC16B microchip 串行EEPROM(16K,2048×8 ) 低功耗24LC32A microchip 串行EEPROM(32K,4096×8 ) 低功耗24LC65 microchip 单片机93LC46B microchip 串行EEPROM(1K 128×8 or 64×16) 低功耗93LC66 microchip 串行EEPROM(4K 512×8 or 256×16) 低功耗93LC56P-3 EXEL 美国串行EEPROM(4K 512×8 or 256×16) 低功耗24C16W6 ST 串行EEPROM(16K,2048×8 ) 低功耗24C32-6 ST 串行EEPROM(32K,4096×8 ) 低功耗24WC32JI CAT 串行EEPROM(32K,4096×8 ) 低功耗MT8816AE MT 8*16 模拟交换矩阵MAX705CPA MAX 带监控器复位器DATAMAX706CPA MAX 带监控器复位器DATAMAX708CPA MAX 带有掉电报警复位器DATAMAX202ECPE MAX 5V 双组RS-232 接收发送器DA TAMAX202CPE /CSE MAX 5V 双组RS-232 接收发送器DATAMAX232CPE MAX 5V 双组RS-232 接收发送器DA TAMAX232EPE 工业级MAX 5V 双组RS-232 接收发送器DA TAMAX233ACPP MAX 5V 双组RS-232 接收发送器DA TAMAX338CPE MAX 低漏泄,8 通道,CMOS 模拟多路开关MAX813LCPA MAX 具有监控器的复位器( 高电压复位) DATAMAX761CPA MAX 12V 可调,高效率,低IQ 值,步升直流/直流电压转换器MAX765CPA MAX负12V 可调,高效率,低IQ 值,倒相直流/直流电压转换器MAX1259CPE MAXMAX1483CPA MAX RS-485/RS-442 接口,256 个节点MAX1488ECPD MAX RS-485/RS-442 接口,128 个节点MAX485CPA MAX RS-485 接收发送器-直接LTC485 代用件MAX1487CPA MAX RS-485/RS-442 接口,128 个节点DS1210 DALLAS。
USB接口类单片机特点及应用
USB接口类单片机特点及应用清华Freescale Semiconductor单片机应用开发研究中心邵森龙程天宇USB接口已经在无线接入设备、电子商务、安全钥、PDA及计算机便携式外设上有了广泛的应用。
本次‘Freescale杯’设计竞赛推荐的有两款单片机带有USB接口,它们是支持高速、全速USB传输的MC9S12UF32和支持低速USB传输的MC68HC908JB8/16。
MC9S12UF32 单片机MC9S12UF32是16位单片机中低价位、高性能HCS12家族中的一员。
由S12内核(Star Core CPU),加其它标准的片上模块组成,包括32K字节FLASH EEPROM,3.5K字节RAM,1.5K队列QRAM,高速USB2.0(480Mb/S)接口,给USB批量数据传输使用的集成队列控制器(IQUE),ATA5接口(PCI 总线接口),U盘类FLASH接口(Compact FLASH),SD/MMC接口,智能多媒体接口,记忆棒接口,一个16位8通道定时器,串行通讯接口,73个独立的数字I/O通道和2个输入通道。
系统集成模块(SIM)负责管理系统资源的映射,时钟产生,中断控制和总线接口。
MC9S12UF32系统总线为16位宽。
外部总线可以在8位窄模式下工作,这使得在低成本系统中可以使用单个8位宽存储器。
特别地,IQUE模块控制了一条专门的内部总线,这条总线使得从存储接口到USB模块可以保持每秒60M字节的传输率。
可以说这款单片机是专门为高速USB存储设备接口设计的。
使用这款芯片的主要模块是集成队列控制器(IQUE)、USB2.0接口和众多存储控制器接口(如ATA5)中的一个或多个。
CPU本身起到了对系统的配置和控制作用,真正的数据传输通过IQUE作为中介完成,不需要CPU的干预,这是利用这款芯片进行产品设计时的思路。
集成队列模块IQUE由三个主要部分组成:QUE控制器、QUE集成模块(QIM)和1.5K字节,宽度可定义为16位的静态队列RAM(QRAM)。
机顶盒芯片方案资料全
机顶盒硬件参数资料目录1. 概要 (4)2. 芯片方案 (4)2.1. 海思-Hi (4)2.1.1. Hi3109 (4)2.1.2. Hi3110Q (4)2.1.3. Hi3110E (5)2.1.4. Hi3130 (5)2.1.5. Hi3560 (5)2.1.6. Hi3560Q (5)2.1.7. Hi3570 (6)2.2. 意法-ST (6)2.2.1. STi5189 (6)2.2.2. STi5197 & STi5198 (6)2.2.3. STi5197L (7)2.2.4. STi5202 (7)2.2.5. STi5512 (8)2.2.6. STi5516 (9)2.2.7. STi5517 (9)2.2.8. STi5518 (10)2.2.9. STi5528 & STi4629 (11)2.2.10. STi7105 (12)2.2.11. STi7106 (13)2.2.12. STi7108 (14)2.2.13. STi7111 (15)2.2.14. STi7141 (16)2.2.15. STV6110A & STV0903 (17)2.3. 日电—NEC (18)2.3.1. EMMA3SL/LP & EMMA3SL/L (18)2.3.2. EMMA3SL/HD & EMMA3SL/SD (19)2.3.3. EMMA2SE (21)2.3.4. EMMA 2SL/P (22)2.3.5. EMMA3SL/P (23)2.3.6. EMMATM3TL (27)2.3.7. EMMATM2TS (29)2.4. 恩智浦-NXP (32)2.4.1. CX2450x (32)2.4.2. PNX847x/8x/9x (33)2.5. 博通-Broadcom (34)2.5.1. BCM3545 (34)2.5.2. BCM3556 (34)2.5.3. BCM7003 & BCM7004 (35)2.5.4. BCM7019 & BCM7025 (35)2.5.5. BCM7205 & BCM7206 (36)2.5.6. BCM7340 &BCM7342 (37)2.5.7. BCM7405 (38)2.5.8. BCM7466 (39)2.5.9. BCM7580 (39)2.6. 国芯 (39)2.6.1. 信道芯片系列 (40)2.6.2. GX1502--DTMB GX1502是一款国标地面数字电视解调芯片; (40)2.6.3. GX1501--DTMB+DVB-C (41)2.6.4. GX1201--DVB-T (42)2.6.5. GX1131--DVB-S2 (44)2.6.6.GX1121C--ABS-S (44)2.6.7. GX1101--DVB-S (45)2.6.8. GX1001--DVB-C (46)2.6.9. 信源+视频后处理芯片 (47)2.6.10. GX2001--Scaler+Deinterlace (47)2.6.11. GX3000--MPEG2+CA (48)2.6.12. GX3001--MPEG2+CA (49)2.6.13. GX3002-- MPEG2+ PVR+PIP (50)2.6.14. GX3101-- AVS/MPEG2+ PVR (51)2.6.15. GX3601--CA+USB (51)2.6.16. 信道+信源+视频后处理芯片 (52)2.6.17. GX6201--DVB-T+MPEG2 (52)2.6.18. GX6108--DVB-S+MPEG2+PVR (52)2.6.19. GX6107--DVB-S+MPEG2+PVR+PIP (53)2.6.20. GX6106--DVB-S+MPEG2+CA (53)2.6.21. GX6105--DVB-S+MPEG2 (54)2.6.22. GX6103--DVB-S+MPEG2+PVR (54)2.6.23. GX6102--DVB-S+MPEG2+CA (55)2.6.24. GX6101--DVB-S+MPEG2 (55)2.6.25. GX6101D--DVB-S+MPEG2 (56)2.6.26. GX6101M-- RF+QPSK+MPEG2+SDRAM (56)2.7. 卓然--Zoran (57)2.7.1. ZR39104 (57)2.8. 飞利浦--Philips (57)2.8.1. TDA15500 (57)2.9. 富士通--Fujitsu (57)2.9.1. MB86H20B (57)2.9.2. MB86H20C (58)2.9.3. MB86H60 (58)2.9.4. MB87L2250 (58)2.10. 美商巨积--LSI Logic (60)2.10.1. SC2000 (60)2.10.2. SC2005 (61)2.10.3. SC2005B (63)2.10.4. AViA-9600 (63)2.10.5. AViA-9700 (63)2.11. 科胜讯--Conexant (64)2.11.1. CX24152/5 (64)2.11.2. CX24109 (65)2.11.3. CX24116 & CX24118 & CX23883 (65)2.11.4. CX24143 (65)2.11.5. CX2427X (66)2.11.6. CX2445X (66)2.11.7. CX2310X (66)2.11.8. CX24116 & CX2417X & CX2418X & CX20552 (69)1.概要本文档阐述了数字机顶盒产业的芯片方案(机顶盒产业链中各环节的厂商,包括芯片厂商、CA厂商、中间件厂商、ODM和机顶盒制造厂商,对机顶盒产业进行了完整的勾画)。
CD4099中文资料
CD4099是一个8位可寻址的锁存器,有三
条地址输入线(a0 - a2),一个低电平有效使能
端(E—),一个高电平有效清除端(CL),一个数据
输入端(D)和8 个数据输出端(Q0-Q7)。
共有四种工作模式
1.寻址锁存模式
当使能端(E—)和清除端(CL)均为低电平时工作
在寻址锁存模式。
地址编码位输出实时跟随数
据数据端(D),其它输出位保持前一状态输出。
例:前一状态E—=1,CL=0,D=0或1,a2-a0=任
意地址,Q7-Q0=10000001,现在送来数据状态E—
=0,CL=0,D=1,a2-a0=011,Q7-Q0=10000101,只有Q2跟随数据输入端(D)。
2.记忆锁存模式
当使能端(E—)为高电平,清除端(CL)为低电平时工作在记忆锁存模式,这时输出端(Q0-Q7)保持前一状态数据不变。
例:前一状态E—=0,CL=0,D=0或1,a2-a0=任意地址,Q7-Q0=11100000,现在
数据状态E—=1,CL=0,D=0或1,a2-a0=任意地址,Q7-Q0=11100000,所有输出并未变化。
3.多路输出选择器模式
当使能端(E—)为低电平,清除端(CL)为高电平时工作在多路输出选择器模式,地址编码位输出跟随数据数据端(D),其它输出位均输出低电平。
例:E—=0,CL=1,D=1,a2-a0=010,Q7-Q0=00000010。
4.清零模式
当使能端(E—)和清除端(CL)均为高电平时,所有输出端(Q0-Q7)都为低电平。
HC4094资料
SL74Байду номын сангаасC4094
8-Bit Serial-Input Shift Register With Latched 3-State Outputs
High-Performance Silicon-Gate CMOS
The SL74HC4094 is identical in pinout to the LS/ALS4094. The device inputs are compatible with standard CMOS outputs; with pullup resistors, they are compatible with LS/ALSTTL outputs. This device consists of an 8-bit shift register and 8-bit D-type latch with three-state parallel outputs. Data is shifted serially through the shift register on the positive going transition of the clock input signal. The output of the last stage SQH can be used to cascade several devices. Data on the SQH output is transferred to a second output (SQH’) on the following negative transition of the clock input signal. The data of each stage of the shift register is provided with a latch, which latches data on the negative going transition of the Strobe input signal. When the Strobe input is held high, data propagates through the latch to a 3state output buffer. This buffer is enabled when Output Enable input is taken high. • Outputs Directly Interface to CMOS, NMOS, and TTL • Operating Voltage Range: 2.0 to 6.0 V • Low Input Current: 1.0 µA • High Noise Immunity Characteristic of CMOS Devices
M74HC4094中文资料
M74HC4094中文资料M54HC4094M74HC4094February 19938BIT SIPO SHIFT LATCH REGISTER (3-STATE)B1R(Plastic Package)ORDER CODES :M54HC4094F1R M74HC4094M1R M74HC4094B1R M74HC4094C1RF1R(Ceramic Package)M1R(Micro Package)C1R (Chip Carrier)PIN CONNECTIONS (top view)NC =No Internal Connecti o nDESCRIPTION.HIGH SPEEDf MAX =73MHz (TYP.)AT V CC =5V .LOW POWER DISSIPATION I CC =4μA (MAX.)AT T A =25°C .HIGH NOISE IMMUNITYV NIH =V NIL =28%V CC (MIN.).OUTPUT DRIVE CAPABILITY 10LSTTL LOADS.SYMMETRICAL OUTPUT IMPEDANCE |I OH |=I OL =4mA (MIN.).BALANCED PROPAGATION DELAYS t PLH =t PHL.WIDE OPERATING VOLTAGE RANGE V CC (OPR)=2V TO 6V .PIN AND FUNCTION COMPATIBLE WITH 4094BThe M54/74HC4094is a high speed CMOS 8BIT SIPO SHIFTLATCH REGISTERfabricated with sili-con gate C 2MOS technology.It has the same high speed performance of LSTTL combined with true CMOS low power consumption.This device consists of an 8-bit shift register and an 8-bit latch with 3-state output buffer.Data is shifted serially through the shift register on the positive going transition of the clock input signal.The output of the last stage (Qs)can be used to cascade sev-eral devices.Data on the Qs output is transferred to a second out-put (Qs’)on the following negative transition of the clock input signal.The data of each stage of the shift register is provided with a latch,which latches data on the negative going transition of the STROBE input signal.When the STROBE input is held high,data propagates through the latch to a 3-state output buffer.This buffer is enabled when OUTPUT ENABLE input is taken high.All inputs are equipped with pro-tection circuits against static discharge and transient excess voltage.1/12M54/M74HC4094 LOGIC DIAGRAMLOGIC DIAGRAM 2/12TRUTH TABLECK OE ST SI PARALLEL OUTPUT SERIAL OUTPUT Q1Qn Qs Qs’H H L L Qn-1Q7NCH H H H Qn-1Q7NCH L X NC NC Q7NCL X X Z Z Q7NCH X X NC NC NC QsL X X Z Z NC Qs X:Don’t Care Z:High Impedance NC:No ChangePIN DESCRIPTIONPIN No SYMBOL NAME AND FUNCTION 1STROBE StrobeInput2SERIAL IN Serial Input3CLOCK Clock Input4,5,6,7,14,13,12,11Q1to Q7Parallel Outputs9,10QS Q’S Serial Outputs15OE Output Enable Input8GND Ground(0V)16V CC Positive Supply Voltage IEC LOGIC SYMBOLINPUT AND OUTPUT EQUIVALENT CIRCUITM54/M74HC40943/12ABSOLUTE MAXIMUM RATINGSSymbol Parameter Value Unit V CC Supply Voltage-0.5to+7V V I DC Input Voltage-0.5to V CC+0.5V V O DC Output Voltage-0.5to V CC+0.5VI IK DC Input Diode Current±20mAI OK DC Output Diode Current±20mAI O DC Output Source Sink Current Per Output Pin±25mAI CC or I GND DC V CC or Ground Current±50mAP D Power Dissipation500(*)mW T stg Storage Temperature-65to+150o C T L Lead Temperature(10sec)300o C Absolute Maximum Ratings are those values beyond whichdamage to the device may occu r.Functiona l ope ration und er these cond ition isnotimplied. (*)500mW:?65o C derate to300mW by10mW/o C:65o C to85o CRECOMMENDED OPERATING CONDITIONSSymbol Parameter Value Unit V CC Supply Voltage2to6V V IInput Voltage0to V CC V V O Output Voltage0to V CC V T op Operating Temperature:M54HC SeriesM74HC Series -55to+125-40to+85o Co Ct r,t f Input Rise and Fall Time V CC=2V0to1000nsV CC=4.5V0to500V CC=6V0to400M54/M74HC40944/12DC SPECIFICATIONSSymbol ParameterTest Conditions ValueUnit V CC(V)T A=25o C54HC and74HC-40to85o C74HC-55to125o C54HCMin.Typ.Max.Min.Max.Min.Max.V IH High Level InputVoltage 2.0 1.5 1.5 1.5V 4.5 3.15 3.15 3.156.0 4.2 4.2 4.2V IL Low Level InputVoltage 2.00.50.50.5V 4.5 1.35 1.35 1.356.0 1.8 1.8 1.8V OH High LevelOutput Voltage 2.0V I=V IHorV ILI O=-20μA1.92.0 1.9 1.9V 4.5 4.4 4.5 4.4 4.46.0 5.9 6.0 5.9 5.94.5I O=-4.0mA 4.18 4.31 4.13 4.10 6.0I O=-5.2mA 5.68 5.8 5.63 5.60 V OL Low Level OutputVoltage 2.0V I=V IHorV ILI O=20μA0.00.10.10.1V 4.50.00.10.10.16.00.00.10.10.14.5I O=4.0mA0.170.260.370.406.0I O=5.2mA0.180.260.370.40I I Input LeakageCurrent 6.0V I=V CC or GND±0.1±1±1μAI OZ3State OutputOff State Current 6.0V I=V IH or V ILV O=V CC or GND±0.5±5.0±10μAI CC Quiescent SupplyCurrent 6.0V I=V CC or GND44080μAM54/M74HC40945/12AC ELECTRICAL CHARACTERISTICS(C L=50pF,Input t r=t f=6ns)Symbol ParameterTest Conditions ValueUnit V CC(V)T A=25o C54HC and74HC-40to85o C74HC-55to125o C54HCMin.Typ.Max.Min.Max.Min.Max.t TLH t THL Output TransitionTime2.0307595110ns4.581519226.07131619t PLH t PHL PropagationDelay Time(CLOCK-Qn)2.092200250300ns4.5264050606.020344351t PLH t PHL Propagation Delay Time(C LOC K-QS,Q’S)2.065150190225ns4.5193038456.015263238t PLH t PHL Propagation Delay Time (STROBE-Qn)2.0751********ns4.5203240486.016273441t PZL t PZH 3State Output Enable Time2.058150190225ns4.5163038456.013263238t PHZ t PLZ 3State Output Disable Time2.0351********ns4.5163038456.013263238f MAX Maximum ClockFrequency 2.0616 4.84MHz 4.5306624206.035802824t W(H) t W(L)Minimum Pulse Width2.0177595110ns4.571519226.06131619t W(L)Minimum PulseWidth 2.028*******ns 4.561519226.06131619t s Minimum Set-upTime(SI)2.0307595110ns 4.571519226.05131619t s Minimum Set-upTime(ST)2.0451********ns 4.5102025296.08172125t h Minimum HoldTime(SI,ST)2.0000ns 4.50006.0000C IN Input Capacitance5101010pF C PD(*)Power DissipationCapacitance 140pF(*)C PD is defined as the value of the IC’s internal equivalent capac itanc e which is calculated from the operating current con sump tion without load. (Refer to Test Circuit).Average operting current can be obtained by the following equ ation.I CC(opr)=C PD?V CC?f IN+I CC/2(per FLIP/FLOP)M54/M74HC40946/12TEST WAVEFORM I CC (Opr.)SWITCHING CHARACTERISTICS TEST WAVEFORMC PD CALCULATIONC PD is to be calculated with the following for-mula by using the measured value of I CC (Opr.)in the test circuit opposite.C PD =I CC (Opr )f IN ×V CC In determining the typical value of C PD ,a relatively high frequency of 1MHz was ap-plied to f IN ,in order to eliminate any error caused by the quiescent supply current.M54/M74HC40947/12M54/M74HC4094Plastic DIP16(0.25)MECHANICAL DATAmm inch DIM.MIN.TYP.MAX.MIN.TYP.MAX.a10.510.020B0.77 1.650.0300.065 b0.50.020b10.250.010D200.787 E8.50.335e 2.540.100e317.780.700F7.10.280I 5.10.201L 3.30.130Z 1.270.050P001C 8/12M54/M74HC4094 Ceramic DIP16/1MECHANICAL DATA mm inchDIM.MIN.TYP.MAX.MIN.TYP.MAX.A200.787B70.276D 3.30.130E0.380.015e317.780.700F 2.29 2.790.0900.110G0.40.550.0160.022H 1.17 1.520.0460.060L0.220.310.0090.012M0.51 1.270.0200.050N10.30.406P7.88.050.3070.317Q 5.080.200P053D9/12M54/M74HC4094SO16(Narrow)MECHANICAL DATAmm inch DIM.MIN.TYP.MAX.MIN.TYP.MAX.A 1.750.068a10.10.20.0040.007 a2 1.650.064 b0.350.460.0130.018 b10.190.250.0070.010 C0.50.019c145°(typ.)D9.8100.3850.393E 5.8 6.20.2280.244e 1.270.050e38.890.350F 3.8 4.00.1490.157G 4.6 5.30.1810.208L0.5 1.270.0190.050 M0.620.024 S8°(max.)P013H 10/12M54/M74HC4094PLCC20MECHANICAL DATAmm inchDIM.MIN.TYP.MAX.MIN.TYP.MAX.A9.7810.030.3850.395B8.899.040.3500.356D 4.2 4.570.1650.180d1 2.540.100d20.560.022E7.378.380.2900.330e 1.270.050e3 5.080.200F0.380.015G0.1010.004M 1.270.050M1 1.140.045P027A11/12M54/M74HC4094Information furnished is believed to be accurate and reliable.However,SGS-THOMSON Microelectronics assumes no responsability for the consequences of use of such information nor for any infringement of patents or other rights of third parties which may results from its use.No license is granted by implication or otherwise under any patent or patent rights of SGS-THOMSON Microelectronics.Specificationsmentioned in this publication are subject to change without notice.This publication supersedes and replaces all information previously supplied.SGS-THOMSON Microelectronics products are not authorized for use ascritical components in life support devices or systems without express written approval of SGS-THOMSON Microelectonics.1994SGS-THOMSON Microelectronics-All Rights Reserved SGS-THOMSON Microelectronics GROUP OF COMPANIESAustralia-Brazil-France-Germany-Hong Kong-Italy-Japan-Korea-Malaysia-Malta-Morocco-The Netherlands-Singapore-Spain-Sweden-Switzerland-Taiwan-Thailand-United Kingdom-U.S.A12/12。
74HC4094中文资料
tW
strobe pulse width
80 14
100
120
ns 2.0 Fig.8
CONDITIONS
tPHL/ tPLH
fmax CI CPD
propagation delay CP to QS1 CP to QS2 CP to QPn STR to QPn maximum clock frequency input capacitance power dissipation capacitance per package
8-stage shift-and-store bus register
Product specification
74HC/HCT4094
FEATURES
• Output capability: standard • ICC category: MSI
GENERAL DESCRIPTION
The 74HC/HCT4094 are high-speed Si-gate CMOS devices and are pin compatible with the “4094” of the “4000B” series. They are specified in compliance with JEDEC standard no. 7A.
74HC/HCT4094 8-stage shift-and-store bus register
Product specification File under Integrated Circuits, IC06
December 1990
元器件交易网
Philips Semiconductors
Product specification
CD4094中文资料
*4094 与74ls164 的编程使用区别,仅仅在于多了一个1脚锁存端口。
当1脚为高电平时,其使用方法与164一模一样。
各位老师可以在以前164驱动的程序里,直接将加入将1脚置为高电平即可。
**另外,当1脚为低电平时,其输出引脚被锁定,Q引脚输出数据不会变化。
**但当锁存(1脚为低电平时),你跟4094通讯,可以使其内部数据改变,改变后,将1脚置为高电平,其Q输出引脚会被立即更新。
CD4094 位移位存储总线寄存器: CD4094是带输出锁存和三态控制的串入/并出高速转换器,具有使用简单、功耗低、驱动能力强和控制灵活等优点。
CD4094的引脚定义如图1。
其中(1)脚为锁存端,(2)脚为串行数据输入端,(3)脚为串行时钟端。
(1)脚为高电平时,8位并行输出口Q1~Q8在时钟的上升沿随串行输入而变化;(1)脚为低电平时,输出锁定。
利用锁存端可方便地进行片选和级联输出控制。
(15)脚为并行输出状态控制端,(15)脚为低电平时,并行输出端处在高阻状态,在用CD4094作显示输出时,可使显示数码闪烁。
(9)脚QS、(10)脚Q′S是串行数据输出端,用于级联。
QS端在第9个串行时钟的上升沿开始输出,Q′S端在第9个串行时钟的下降沿开始输出.当CD4094电源为5V时,输出电流大于3.2MA,灌电流为1 MA。
串行时钟频率可达2.5MHZ。
CD4094引脚图CD4094真值表:Clock OutputEnableStrobe DataParallel Outputs 并行输出Serial Outputs 串行输出Q1 QN QS (Note 1) Q S↑0 X X 三态三态Q7 不变↓0 X X 三态三态不变Q7 ↑ 1 0 X 不变不变Q7 不变↑ 1 1 0 0 Q N-1 Q7 不变↑ 1 1 1 1 Q N-1 Q7 不变↓ 1 1 1 不变不变不变Q7CD4094内部电路方框图Absolute Maximum Ratings 绝对最大额定值:Supply Voltage电源电压(VDD) -0.5 to +18 VDCInput Voltage输入电压(VIN) 838电子-0.5 to VDD +0.5 VDCStorage Temperature Range储存温度范围(TS) -65℃to +150℃Power Dissipation功耗(PD)Dual-In-Line 普通双列封装新艺图库700 mWSmall Outline 小外形封装500 mWLead Temperature 焊接温度(TL)Soldering, 10 seconds)(焊接10秒)260℃Recommended Operating Conditions 建议操作条件:DC Supply Voltage 直流供电电压(VDD) +3.0 to +15 VDC Input Voltage输入电压(VIN) 838电子0 to VDD VDC Operating Temperature Range工作温度范围(TA) -40℃to +85℃DC Electrical Characteristics 直流电气特性:Symbol 符号Parameter参数Conditions 条件-40°C +25°C +85°C Units单位最小最大最小典型最大最小最大IDD QuiescentDeviceCurrent静态电流VDD = 5.0V 20 20 150μA VDD = 10V 40 40 300VDD = 15V 80 80 600VOL LOW LevelOutputVDD=5.0V|IO|≤1.μA0.05 0 0.05 0.05V VDD=10V 0.05 0 0.05 0.05Voltage 输出低电平电压VDD=15V0.050.050.05VOHHIGH Level OutputVoltage 输出高电平电压VDD=5.0V|IO|≤1μA 4.954.955.0 4.95 VVDD=10V 9.959.95 10.0 9.95VDD=15V14.9514.95 15.014.95VILLOW Level InputVoltage 输入低电平电压VDD = 5.0V, VO =0.5V or 4.5V 1.5 1.5 1.5 V VDD = 10V, VO =1.0V or 9.0V3.0 3.0 3.0 VDD = 15V, VO = 1.5V or 13.5V 838电子4.04.0 4.0VIHHIGH Level InputVoltage 输入高电平电压VDD = 5.0V, VO = 0.5V or 4.5V 3.5 3.5 3.5 VVDD = 10V, VO = 1.0V or 9.0V7.0 7.07.0 VDD = 15V, VO = 1.5V or 13.5V11.011.011.0 IOLLOW Level OutputCurrent 输出低电平电流 (Note 4)VDD=5.0V,VO=0.4V 0.52 0.44 0.88 0.36 mAVDD=10V,VO=0.5V 1.31.12.25 0.9VDD=15V,VO=1.5V 3.6 3.08.82.4 IOHHIGH Level OutputCurrent 输出高电平电流 (Note 4)VDD=5.0V,VO =4.6V -0.52 -0.44 0.88 -0.36 mAVDD =10V,VO= 9.5V -1.3-1.1 2.25-0.9VDD=15V,VO =13.5V -3.6 -3.0 8.8-2.4IINInputCurrent 输入电流 VDD =15V,VIN =0V -0.3 -0.3 -1.0 μA VDD=15V,VIN =15V0.30.31.0IOZ3-STATE OutputLeakage Current 3态输出漏电流VDD=15V,VIN=0V or 15V1110μAAC Electrical Characteristics 交流电气特性: Symbol符号Parameter 参数 838电子Conditions条件最小 典型 最大Units 单位tPHL, tPLH Propagation Delay Clock to QSVDD = 5.0V 300 600nsVDD = 10V 125 250VDD = 15V 95 190tPHL, tPLH Propagation Delay Clock to Q¢ SVDD =5.0V230 460nsVDD = 10V110 220VDD = 15V 75 150 nstPHL, tPLH Propagation Delay Clock to Parallel OutVDD = 5.0V 420 840nsVDD = 10V 195 390VDD = 15V 135 270tPHL, tPLH Propagation Delay Strobe to Parallel OutVDD = 5.0V 290 580nsVDD = 10V 145 290VDD = 15V 100 200tPHZ Propagation Delay HIGH Level to HIGHImpedanceVDD = 5.0V 140 280nsVDD = 10V 75 150VDD = 15V 55 110tPLZ Propagation Delay LOW Level to HIGHImpedanceVDD = 5.0V 140 280nsVDD = 10V 75 150VDD = 15V 55 110tPZH Propagation Delay HIGH Impedance to HIGHLevelVDD = 5.0V 140 280nsVDD = 10V 75 150VDD = 15V 55 110tPZL Propagation Delay HIGH Impedance to LOWLevelVDD = 5.0V 140 280nsVDD = 10V 75 150VDD = 15V 55 110tTHL, tTLH Transition Time过渡时间VDD = 5.0V 100 200nsVDD = 10V 50 100VDD = 15V 40 80tSU Set-Up Time Data to Clock 建立时间数据时钟VDD = 5.0V 80 40ns VDD = 10V 40 20VDD = 15V 20 10tr, tf Maximum Clock Rise and Fall Time最大时钟上升和下降时间VDD = 5.0V 1msVDD = 10V 1VDD = 15V 1tPC Minimum Clock Pulse Width最小时钟脉冲宽度VDD = 5.0V 200 100ns VDD = 10V 100 50VDD = 15V 83 40tPSMinimum Strobe Pulse WidthVDD = 5.0V 200 100nsVDD = 10V 80 40 VDD = 15V 70 35fmaxMaximum Clock Frequency 最大时钟频率VDD = 5.0V 1.5 3.0MHzVDD = 10V 3.0 6.0 VDD = 15V 4.0 8.0CINInput Capacitance 输入电容 Any Input 5.0 7.5 pF测试电路和3态时序图。
LSI40919中文资料
K E Y A P P L I C A T I O N S■Pedestal and rackable servers ■Workstations■Storage Area Networks (SANs)■Remote storage attach■RAID■JBOD connectF E A T U R E S■One, 2Gbit channel (up to 400 MBps, full duplex)■LC, SFF, Multi-mode optics or HSSDC copper options■64-bit, 66MHz host PCI bus (backwards compatible with 32-bit and 33MHz buses)■Low profile PCI form factor■Auto-negotiation for legacy connect (1 or 2Gbit)■Concurrent SCSI and IP protocol■Software supports switch/loop (private and public) topologies ■FC-Tape support■SNIA HBA API compliant■MPT flash utility - remote updates of firmware and FCODE■Fusion-MPT™architected■SANmark™approved■3 year limited warrantyThe LSI40919O standard heightbracket, LC, SFF, multi-mode opticsA H I G H P E R F O R M A N C E F IB R EC H A N N E L S O L U T I O NFor a high performance, fibre channel solution with 2Gbit speed, theLSI Logic LSI40919 Fibre Channel MiniHAB™family of products is an ideal solution. These single channel, 2Gbit PCI-to-Fibre Channel adapters are multi-purpose fibre channel adapters suitable for many applications needing low cost fibre channel connectivity. Designed in a Low Profile PCI form factor, these adapters are perfect for both rackmount and standard servers. The LSI40919 adapters feature 2Gbit performance for connecting to high performance disk drives, RAID subsystems and JBOD mass storage systems.The LSI40919 adapters host the LSIFC919 multi-function controller for its PCI and fibre channel functionality creating a higher performance solution. The host PCI interface is PCI 2.2 compliant and backwards compatible with 32-bit and 33MHz buses.F U S I O N-M P T A R C H I T E C T U R EBased on industry standard ARM®technology, LSI Logic’s Fusion-MPT (Message Passing Technology) architecture provides unparalleled performance, binary compatibility of host software with LSI Logic’s Ultra320 SCSI, iSCSI, and Fibre Channel products, and significantly reduces software development time. With this advanced architecture, the LSI Logic product family can be quickly adapted to respond to emerging I/O interfaces such as Serial Attach SCSI (SAS).LSI409192Gbit Fibre Channel Host Adapter /storageLSI40919O Standard height bracket, LC, SFF, multi-mode opticsLSI40919LO Low profile bracket, LC, SFF, multi-mode opticsLSI40919H Standard height bracket, HSSDC, copperNOTE: Switch, loop, and point-to-point topologies are supported.Fibre Channel Interoperability Matrix元器件交易网LSI Logic CorporationNorth American Headquarters Milpitas, CATel: 866 574 5741 (within U.S)408 954 3108 (outside U.S.)Host Adapter Group Southborough, MA Tel: 888 429 0425LSI Logic Europe Ltd.European Headquarters United KingdomTel: 44 1344 426544LSI Logic KK Headquarters Tokyo, JapanTel: 81 3 5463 7165ISO 9001 CertifiedLSI Logic, the LSI Logic logo design, Fusion-MPT Integrated Mirroring and MiniHAB are trademarks or registered trademarks of LSI Logic Corporation.ARM is a registered trademark of ARM Limited, used under license. All other brand and product names may be trademarks of their respective companies.LSI Logic Corporation reserves the right to make changes to any products and services herein at any time without notice. LSI Logic does not assume any responsibility or liability arising out of the application or use of any product or service described herein, except as expressly agreed to in writing by LSI Logic; nor does the purchase,lease, or use of a product or service from LSI Logic convey a license under any patent rights, copyrights, trademark rights, or any other of the intellectual property rights of LSI Logic or of third parties.WarrantyFor more than 15 years, LSI Logic host adapters have been providing high-performance SCSI solutions to leading server, disk array and computer systems worldwide. Each host adapter carries a powerful chip built in LSI Logic’s ISO 9001-certified fabri-cation facilities. Using only the highest quality components, LSI Logic host adapters are assembled and tested in world-class facilities to assure superior product reliability and perform-ance. Because of stringent quality management programs, our host adapters carry a three-year limited warranty.Copyright ©2003 by LSI Logic Corporation.All rights reserved.Order No. S200584/03-2M – Printed in USA.The LSI40919 2Gbit Fibre Channel adapters are ideal low cost, Fibre Channel solutions suited for most applications.。
4099集成电路IC
FUNCTIONAL DIAGRAM
TRUTH TABLE
SELECT INPUTS LATCH ADDRESSED C L L L L H H H H INPUTS WRITE DISABLE L L H H RESET L H L H B L L H H L L H H OUTPUTS OF ADDRESSED LATCH D Qi0 D L A L H L H L H L H EACH OTHER OUTPUT Qi0 Qi0 L L Q0 Q1 Q2 Q3 Q4 Q5 Q6 Q7
HCF4099B
8 BIT ADDRESSABLE LATCH
s
s
s s
s
s
s s
SERIAL DATA INPUT - ACTIVE PARALLEL OUTPUT STORAGE REGISTER CAPABILITY MASTER CLEAR CAN FUNCTION AS DEMULTIPLEXER QUIESCENT CURRENT SPECIFIED UP TO 20V STANDARDIZED SYMMETRICAL OUTPUT CHARACTERISTICS INPUT LEAKAGE CURRENT II = 100nA (MAX) AT VDD = 18V TA = 25°C 100% TESTED FOR QUIESCENT CURRENT MEETS ALL REQUIREMENTS OF JEDEC JESD13B "STANDARD SPECIFICATIONS FOR DESCRIPTION OF B SERIES CMOS DEVICES"
VIL
<1 <1 <1 <1 <1 <1 <1 <1 <1 <1 <1 <1
HCC4099B
HCC/HCF4099BSeptembe r 19888-BIT ADDRESSABLE LATCH.SERIAL DATA INPUT -ACTIVE PARALLEL OUTPUT.STORAGE REGISTER CAPABILITY -MASTER CLEAR.CAN FUNCTION AS DEMULTIPLEXER.STANDARDIZED SYMMETRICAL OUTPUT CHARACTERISTICS.QUIESCENT CURRENT SPECIFIED TO 20V FOR HCC DEVICE.5V,10V,AND 15V PARAMETRIC RATINGS .INPUT CURRENT OF 100nA AT 18V AND 25°C FOR HCC DEVICE.100%TESTED FOR QUIESCENT CURRENT .MEETS ALL REQUIREMENTS OF JEDECTEN-TATIVE STANDARD N °.13A,”STANDARD SPECIFICATIONS FOR DESCRIPTION OF ”B”SERIES CMOS DEVICES”DESCRIPTIONThe HCC4099B (extended temperature range)andHCF4099B (intermediate temperature range)are monolithic integrated circuits,available in 16-lead dual in-line plastic or ceramic package and plastic micro package.The HCC/HCF4099B 8-bit addressable latch is a serial-input,parallel-output storage register that can perform a variety of functions.Data are in-putted to a particular bit in the latch when that bit is addressed (by means of inputs A0,A1,A2)and when WRITE DISABLE is at a low level.When WRITE DISABLE is high,data entry is inhibited ;however,all 8outputs can be continuously read in-dependen t of WRITE DISABLE and address inputs.A master RESET input is available,which resets all bits to a logic ”0”level when RESET and WRITE DISABLE are at a high level.When RESET is at a high level,and WRITE DISABLE is at a low level,the latch acts as a 1-of-8demultiplexer ;the bit that is addressed has an active output which follows the data input,while all unaddr essed bits are held to a logic ”0”level.ORDER CODES :HCC4099B F HCF4099BM1HCF4099BE Y HCF4099BC1M1Micro Package C1Plastic Chip CarrierEYPlastic Package FCeramic Frit Seal PackagePIN CONNECTIONS1/14FUNCTIONAL DIAGRAMABSOLUTE MAXIMUM RATINGSSymbol Parameter Value UnitV DD*Supply Voltage:HCC TypesHCF Types –0.5to+20–0.5to+18VVV i Input Voltage–0.5to V DD+0.5V I I DC Input Current(any one input)±10mAP t o t Total Power Dissipation(per package)Dissipation per Output Transistorfor T o p=Full Package-temperature Range 200100mWmWT o p Operating Temperature:HCC TypesHCF Types –55to+125–40to+85°C°CT s t g Storage Temperature–65to+150°C Stresses abo ve listed und er”Absolute Maximum Ratings”may caus e permanent damage to the dev ice.This is a stress rating only and functional operation of the dev ice at these or any other con ditions abo ve those indicated in the operational sections of this specification is not implied.Exposure to abso lute maximum rating con ditions for external periods may affect devic e reliability.*All voltage values are referred to V SS pin voltage.RECOMMENDED OPERATING CONDITIONSSymbol Parameter Value UnitV DD Supply Voltage:HCC TypesHCF Types 3to183to15VVV I Input Voltage0to V DD VT o p Operating Temperature:HCC TypesHCF Types –55to+125–40to+85°C°CHCC/HCF4099B 2/14LOGIC DIAGRAMDefinition of WRITE DIABLE ON TimeMode SelectionTypesW D R AddressedLatchUnaddressedLatchA00Follows Data Holds PreviousStateB01Follows Data Reset to”0”(active high8-channeldemultiplexer)C10Holds Previous StateD11Reset to”0”Reset to”0”WD=WRITE DISABLE R=RESET1of8latchesMaster Timing DiagramHCC/HCF4099B3/14STATIC ELECTRICAL CHARACTERISTICS (over recommended operatin g conditions)Test ConditionsValueV I V O |I O |V D D T L o w *25°C T Hi g h *SymbolParameter (V)(V)(µA)(V)Min.Max.Min.Typ.Max.Min.Max.UnitI LQuiescent CurrentHCC Types 0/5550.045150µA0/1010100.04103000/1515200.04206000/20201000.081003000HCFTypes0/55200.04201500/1010400.04403000/1515800.0480600V OHOutput High Voltage0/5<15 4.95 4.95 4.95V0/10<1109.959.959.950/15<11514.9514.9514.95V OLOutput Low Voltage5/0<150.050.050.05V 10/0<1100.050.050.0515/0<1150.050.050.05V IHInput High Voltage0.5/4.5<15 3.5 3.5 3.5V1/9<1107771.5/13.5<115111111V ILInput Low Voltage4.5/0.5<15 1.5 1.5 1.5V 9/1<11033313.5/1.5<115444I OHOutput Drive CurrentHCC Types 0/52.55–2–1.6–3.2–1.15mA0/5 4.65–0.64–0.51–1–0.360/109.510–1.6–1.3–2.6–0.90/1513.515–4.2–3.4–6.8–2.4HCFTypes 0/52.55–1.53–1.36–3.2–1.10/54.65–0.52–0.44–1–0.360/109.510–1.3–1.1–2.6–0.90/1513.515–3.6–3.0–6.8–2.4I OLOutput Sink CurrentHCCTypes0/50.450.640.5110.36mA 0/100.510 1.6 1.3 2.60.90/15 1.515 4.2 3.4 6.8 2.4HCFTypes0/50.450.520.4410.360/100.510 1.3 1.1 2.60.90/151.515 3.63.06.8 2.4I IH ,I ILInput Leakage CurrentHCCTypes 0/18Any Input18±0.1±10–5±0.1±1µA HCFTypes 0/1515±0.3±10–5±0.3±1C I Input CapacitanceAny Input57.5pF*T LOW =–55°C for HCC device :–40°C for HCF device .*T HIGH =+125°C for HCC device :+85°C for HCF device .The Noise Margin for both ”1”and ”0”level is :1V min.with V DD =5V,2V min.with V DD =10V,2.5V min.with V DD =15V,HCC/HCF4099B4/14DYNAMIC ELECTRICAL CHARACTERISTICS (T amb =25°C,C L =50pF,R L =200k Ω,typical temperature coefficient for all V D D values is 0.3%/°C,all input rise and fall times =20ns)ValueSymbolParameterTest Conditions (see master timingdiagram)V D D (V)Min.Typ.Max.Unitt PL H ,t P HL PropagationDelay TimeData to Output(1)5200400ns 10751501550100Write Disable to Output(2)520040010801601560120Address to Output(9)5225450101002001575150t PHLPropagation Delay TimeReset to Output(3)517535010801601565130t THL ,t T L H TransitionTimeAny Output5100200ns 1050100154080t WPulse WidthData(4)5200100ns1010050158040Address(8)5400200102001001512565Reset(5)515075107540155025t s e t u pSetup TimeData to Write Disable(6)510050ns 105025153520t h o ldHold TimeData to Write Disable(7)515075ns 107540155025HCC/HCF4099B5/14Minimum Output Low(sink)Current Charac-teristics.Typical Output High(source)Current Charac-teristics.Minimum Output High(source)Current Charac-teristics.Typical Propagation Delay Time(data to Qn)vs. Load Capacitance.Typical Transition Time vs.Load Capacitance.Typical Output Low(sink)Current Characteristics. HCC/HCF4099B6/14HCC/HCF4099B Typical Dynamic power Dissipation vs.AddressCycle Time.TYPICAL APPLICATIONSA/D Converter7/14HCC/HCF4099BTYPICAL APPLICATIONSMultiple Selection Decoding–4x4Crosspoint Switch 1of16Decoder/demultiplexer8/14HCC/HCF4099BTEST CIRCUITSQuiescent Device Current.Input Voltage.Input Current.9/14HCC/HCF4099BPlastic DIP16(0.25)MECHANICAL DATAmm inch DIM.MIN.TYP.MAX.MIN.TYP.MAX.a10.510.020B0.77 1.650.0300.065 b0.50.020b10.250.010D200.787 E8.50.335e 2.540.100e317.780.700F7.10.280I 5.10.201L 3.30.130Z 1.270.050P001C 10/14Ceramic DIP16/1MECHANICAL DATAmm inchDIM.MIN.TYP.MAX.MIN.TYP.MAX. A200.787 B70.276 D 3.30.130E0.380.015e317.780.700F 2.29 2.790.0900.110 G0.40.550.0160.022 H 1.17 1.520.0460.060 L0.220.310.0090.012 M0.51 1.270.0200.050 N10.30.406 P7.88.050.3070.317 Q 5.080.200P053DSO16(Narrow)MECHANICAL DATAmm inchDIM.MIN.TYP.MAX.MIN.TYP.MAX.A 1.750.068 a10.10.20.0040.007 a2 1.650.064 b0.350.460.0130.018 b10.190.250.0070.010 C0.50.019c145°(typ.)D9.8100.3850.393 E 5.8 6.20.2280.244 e 1.270.050e38.890.350F 3.8 4.00.1490.157G 4.6 5.30.1810.208 L0.5 1.270.0190.050 M0.620.024 S8°(max.)P013HPLCC20MECHANICAL DATAmm inchDIM.MIN.TYP.MAX.MIN.TYP.MAX. A9.7810.030.3850.395 B8.899.040.3500.356 D 4.2 4.570.1650.180 d1 2.540.100d20.560.022E7.378.380.2900.330 e 1.270.050e3 5.080.200F0.380.015G0.1010.004 M 1.270.050M1 1.140.045P027AInformation furnished is believed to be accurate and reliable.However,SGS-THOMSON Microelectronics assumes no responsability for the consequences of use of such information nor for any infringement of patents or other rights of third parties which may results from its use.No license is granted by implication or otherwise under any patent or patent rights of SGS-THOMSON Microelectronics.Specificationsmentioned in this publication are subject to change without notice.This publication supersedes and replaces all information previously supplied.SGS-THOMSON Microelectronics products are not authorized for use ascritical components in life support devices or systems without express written approval of SGS-THOMSON Microelectonics.©1994SGS-THOMSON Microelectronics-All Rights ReservedSGS-THOMSON Microelectronics GROUP OF COMPANIESAustralia-Brazil-France-Germany-Hong Kong-Italy-Japan-Korea-Malaysia-Malta-Morocco-The Netherlands-Singapore-Spain-Sweden-Switzerland-Taiwan-Thailand-United Kingdom-U.S.A。
安捷伦34980A中文技术资料
● 8槽主机配有21种混合匹配插入模块, 因此您能建立自己的定制配置
● 高性能开关: 在一台主机内高达 560 个 2 线多路转换器通道或 4096 个矩阵 交叉点
● 易于集成: 内置的以太网,USB 2.0和 GPIB 连通性,标准连接器和软件驱 动程序,适应各种常用的编程环境
● 包括免费的BenchLink数据记录软件
● 直流和交流电压
● 2 线和 4 线电阻
● 频率和周期
● 直流和流电流
模块提供灵活的系统激励和控制
系统控制 ─ 用模拟输出、集电极 开路数字输出、时钟产生和隔离 C 型继 电器控制外部设备。此外,微波开关 / 衰 减器驱动器、高频开关和衰减器能有效 地从外部控制 34980A 主机。
模拟源 ─ 输出可以是电压或电 流。您可把 4 通道隔离数模转换器配置 为点至点的任意波形发生器,从而为每 一波形定义多达 500000 个波形点。
数字码型 ─ 从您的被测设备发送 和接收数字数据。使用电路板上的存储 器,您就能输出通信协议和比特流,或 监视数字输入码型,并在检测到用户规 定的码型时中断。
您可信赖的测量结果
获得 Agilent 仪器业经证明的高性 能,得到您所预期的分辨率、可重复性、 速度和精度。
34980A 提供内装的信号调整和模 块化的灵活性。使用内装的数字万用 表,您就能为所选的测量独立配置任一 通道。它包括给予您测量信心的各种性 能特性:
HCF4047BC1中文资料
s LOW POWER CONSUMPTION:SPECIAL CMOS OSCILLATOR CONFIGURATIONs MONOSTABLE(one-shot)OR ASTABLE (free-running)OPERATIONs TRUE AND COMPLEMENTED BUFFERED OUTPUTSs ONLY ONE EXTERNAL R AND C REQUIRED s BUFFERED INPUTSs QUIESCENT CURRENT SPECIFIED UP TO 20Vs STANDARDIZED,SYMMETRICAL OUTPUT CHARACTERISTICSs5V,10V AND15V PARAMETRIC RATINGSs INPUT LEAKAGE CURRENTI I=100nA(MAX)AT V DD=18V T A=25°Cs100%TESTED FOR QUIESCENT CURRENT s MEETS ALL REQUIREMENTS OF JEDECJESD13B”STANDARD SPECIFICATIONSFOR DESCRIPTION OF B SERIES CMOSDEVICES”DESCRIPTIONThe HCF4047B is a monolithic integrated circuit fabricated in Metal Oxide Semiconductor technology available in DIP and SOP packages. The HCF4047B consist of a gatable astable multivibrator with logic techniques incorporated to permit positive or negative edge-triggered monostable multivibrator action with retriggering and external counting options.Inputs include +TRIGGER-TRIGGER,ASTABLE,ASTABLE, RETRIGGER,and EXTERNAL RESET.Buffered outputs are Q,Q and OSCILLATOR.In all modes of operation,an external capacitor must be connected between C-Timing and RC-Common terminals,and an external resistor must be connected between the R-Timing and RC-Common terminals.For operating modes see functional terminal connections and application notes.HCF4047BLOW POWER MONOSTABLE/ASTABLE MULTIVIBRATORPIN CONNECTION ORDER CODESPACKAGE TUBE T&R DIP HCF4047BEYSOP HCF4047BM1HCF4047M013TRDIP SOP1/12September2001HCF4047B2/12INPUT EQUIVALENT CIRCUITPIN DESCRIPTIONBLOCK DIAGRAMPIN No SYMBOL NAME AND FUNCTION1C External Capacitor 2R External Resistor3RC COM-MONExternal Connection to (1)and (2)4ASTABLEComplement AstablePulse5ASTABLE True Astable Pulse 6-TRIGGER Negative Trigger Pulse 8+TRIGGER Positive Trigger Pulse 9EXT.RESET External Reset 12RETRIG-GERRetrigger Mode Pulse13OSC.OUT Oscillator Output10,11Q,Q Q Outputs7V SS Negative Supply Voltage 14V DDPositive Supply VoltageHCF4047B3/12FUNCTIONAL TERMINAL CONNECTIONS*In all cases external capacitor and resistor between pins,1,2and 3(see logic diagrams).**Input pulse to Reset of External Counting Chip.External Counting Chip Output to pin 4.LOGIC DIAGRAMFUNCTION*TERMINAL CONNECTIONSOUTPUT PULSE FROMOUTPUT PERIOD ORPULSE WIDTHto V DDto V SSInput PulsetoAstable Multivibrator Free Running 4,5,6,147,8,9,12-10,11,13t A (10,11)=4.40RC True Gating4,6,147,8,9,12510,11,13Complement Gating 6,145,7,8,9,12410,11,13t A (13)=2.20RCMonostable Multivibrator Positive -Edge Trigger 4,145,6,7,9,12810,11Negative -Edge Trigger 4,8,145,7,9,12610,11Retriggerable 4,145,6,7,98,1210,11t M (10,11)=2.48RCExternal Countdown**145,6,7,8,9,12-10,11HCF4047B4/12DETAIL FOR FLIP-FLOPS FF1AND FF3(a)AND FOR FLIP-FLOPS FF2AND FF4(b)ABSOLUTE MAXIMUM RATINGSAbsolute Maximum Ratings are those values beyond which damage to the device may occur.Functional operation under these conditions is not implied.All voltage values are referred to V SS pin voltage.RECOMMENDED OPERATING CONDITIONSSymbol ParameterValue Unit V DD Supply Voltage -0.5to +22V V I DC Input Voltage -0.5to V DD +0.5V I I DC Input Current±10mA P D Power Dissipation per Package200mW Power Dissipation per Output Transistor 100mW T op Operating Temperature -55to +125°C T stgStorage Temperature-65to +150°CSymbol ParameterValue Unit V DD Supply Voltage 3to 20V V I Input Voltage0to V DD V T opOperating Temperature-55to 125°CHCF4047B5/12DC SPECIFICATIONSThe Noise Margin for both ”1”and ”0”level is:1V min.with V DD =5V,2V min.with V DD =10V,2.5V min.with V DD =15VSymbolParameterTest ConditionValue UnitV I (V)V O (V)|I O |(µA)V DD (V)T A =25°C -40to 85°C -55to 125°C Min.Typ.Max.Min.Max.Min.Max.I LQuiescent Current0/550.0113030µA0/10100.01260600/15150.0141201200/20200.0220600600V OHHigh Level Output Voltage0/5<15 4.95 4.95 4.95V0/10<1109.959.959.950/15<11514.9514.9514.95V OLLow Level Output Voltage 5/0<150.050.050.05V10/0<1100.050.050.0515/0<1150.050.050.05V IHHigh Level Input Voltage 0.5/4.5<15 3.5 3.5 3.5V1/9<1107771.5/13.5<115111111V ILLow Level Input Voltage 4.5/0.5<15 1.5 1.5 1.5V9/1<11033313.5/1.5<115444I OHOutput Drive Current0/5 2.5<15-1.36-3.2-1.15-1.1mA0/5 4.6<15-0.44-1-0.36-0.360/109.5<110-1.1-2.6-0.9-0.90/1513.5<115-3.0-6.8-2.4-2.4I OLOutput Sink Current0/50.4<150.4410.360.36mA 0/100.5<110 1.1 2.60.90.90/15 1.5<115 3.06.8 2.42.4I I Input Leakage Current0/18Any Input 18±10-5±0.1±1±1µA C IInput CapacitanceAny Input57.5pFHCF4047B6/12DYNAMIC ELECTRICAL CHARACTERISTICS (T amb =25°C,C L =50pF,R L =200K Ω,t r =t f =20ns)(*)Typical temperature coefficient for all V DD value is 0.3%/°C.APPLICATION INFORMATION1-CIRCUIT DESCRIPTIONAstable operation is enabled by a high level on the ASTABLE input.The period of the square wave at the Q and Q Outputs in this mode of operation is a function of the external components employed.”True”input pulses on the ASTABLE input or ”Complement”pulses on the ASTABLE input allow the circuit to be used as a gatable multivibrator.The OSCILLATOR output period will be half of the Q terminal output in the astable mode.However,a 50%duty cycle is not guaranteed at this output.In the monostablemode,positive-edge triggering is accomplished by application of a leading-edge pulse to the +TRIGGER input and a low level to the -TRIGGER input.For negative-edge triggering,a trailing-edge pulse is applied to the -TRIGGER and a high level is applied to the +TRIGGER.Input pulses may be of any duration relative to the output pulse.The multivibrator can be retriggered (on the leading edge only)by applying a common pulse to both the RETRIGGER and +TRIGGER inputs.In this mode the output pulse remains high as long as the input pulse period is shorter than the period determined by the RC components.An external countdown option can be implemented bySymbolParameterTest ConditionValue (*)UnitV DD (V)Min.Typ.Max.t PLH t PHL Propagation DelayTimeAstable,Astable to Osc.Out 5200400ns101002001580160Astable,Astable to Q,Q 53507001017535015125250+or -Trigger to Q,Q550010001022545015150300Retrigger to Q,Q53006001015030015100200External Reset to Q,Q5250500101002001570140t THL t TLH Transition Time Osc.Out Q,Q5100200ns1050100154080t WInput Pulse Width+Trigger -Trigger 5200400ns10801601550100Reset51002001050100153060Retrigger5300600101152301575150t r ,t fInput Rise and Fall Time All Inputs5Unlimited µs1015Q or Q Deviation from 50%Duty Factor5±0.5±1%10±0.5±115±0.1±0.5HCF4047B7/12coupling ”Q”to an external ”N”counter and resetting the counter with the trigger pulse.The counter output pulse is fed back to the ASTABLE input and has a duration equal to N times the period of the multivibrator.A high level on the EXTERNAL RESET input assures no output pulse during an ”ON”power condition.This input can also be activated to terminate the output pulse at any time.In the monostable mode,a high-level or power-on reset pulse,must be applied to the EXTERNAL RESET whenever V DD is applied.2-ASTABLE MODEThe following analysis presents worst-case variations from unit-to-unit as a function of transfer-voltage (VTR)shift (33%-67%V DD )for free-running (astable)operation.ASTABLE MODE WAVEFORMSTyp :V TR =0.5V DD t A =4.40RC Min :V TR =0.33V DD t A =4.62RC Max :V TR =0.67V DD t A =4.62RCthus if t A = 4.40RC is used,the maximum variation will be (+5.0%,-0.0%)In addition to variations from unit-to-unit,the astable period may vary as a function of frequency with respect to V DD and temperature.3-MONOSTABLE MODEThe following analysis presents worst-case variations from unit-to-unit as a function of transfer-voltage (V TR )shift (33%-67%V DD )for one-shot (monostable)operation.MONOSTABLE WAVEFORMSV TRt 1=-RC In —————V DD +V TR V DD -V TRt 2=-RC In —————2V DD -V TR(V TR )(V DD -V TR )t 3=2(t 1+t 2)=-2RC In ———————————(V DD +V TR )(2V DD -V TR )V TRt 1=-RC In ———2V DD V DD -V TRt 2=-RC In —————2V DD -V TR(V TR )(V DD -V TR )t M =(t 1+t 2)=-RC In —————————(2V DD -V TR )(2V DD )HCF4047B8/12Where tM =monostable mode pulse width.Values for tM are as follows :Typ :V TR =0.5V DD t M =2.48RC Min :V TR =0.33V DD t M =2.71RC Max :V TR =0.67V DD t M =2.48RCThus if t M = 2.48RC is used,the maximum variation will be (+9.3%,-0.0%).Note :In the astable mode,the first positive half cycle has a duration of T M ;succeeding durations are t A /2.In addition to variations from unit to unit,the monostable pulse width may vary as a function of frequency with respect to V DD and temperature.4-RETRIGGER MODEThe HCF4047B can be used in the retrigger mode to extend the output-pulse duration,or to compare the frequency of an input signal with that of the internal oscillator.In the retrigger mode the input pulse is applied to terminals 8and 12,and the output is taken from terminal 10or 11.As shown in fig.A normal monostable action is obtained when one retrigger pulse is applied.Extended pulse duration is obtained when more than one pulse is applied.For two input pulses,t RE =t 1’+t 1+2t 2.For more than two pulses,t RE (Q OUTPUT)terminates at some variable time t D after the termination of the last retrigger pulse.t D is variable because t RE (Q OUTPUT)terminates after the second positive edge of the oscillator output appears at flip-flop 4(see logic diagram).FIGURE A :Retrigger-mode waveforms5-EXTERNAL COUNTER OPTIONTime t M can be extended by any amount with the use of external counting circuitry.Advantages include digitally controlled pulse duration,small timing capacitors for long time periods,and extremely fast recovery time.A typical implementation is shown in fig.B.The pulse duration at the output is text =(N -1)(t A )+(t M +t A /2)Where text =pulse duration of the circuitry,and N is the number of counts used.FIGURE B :Implementation of external counter optionHCF4047B9/126-POWER CONSUMPTIONIn the standby mode (Monostable or Astable),power dissipation will be a function of leakage current in the circuit,as shown in the static electrical characteristics.For dynamic operation,the power needed to charge the external timing capacitor C is given by the following formula :Astable Mode :P =2CV 2f.(Output at Pin 13)P =4CV 2f.(Output at Pin 10and 11)(2.9CV 2)(Duty Cycle)Monostable Mode :P =——————————T(Output at Pin 10and 11)The circuit is designed so that most of the total power is consumed in the external components.In practice,the lower the values of frequency and voltage used,the closer the actual power dissipation will be to the calculated value.Because the power dissipation does not depend on R,a design for minimum power dissipation would be a small value of C.The value of R would depend on the desired period (within the limitations discussed above).7-TIMING-COMPONENT LIMITATIONS The capacitor used in the circuit should be non-polarized and have low leakage (i.e.the parallel resistance of the capacitor should be an order of magnitude greater than the external resistor used).Three is no upper or lower limit for either R or C value to maintain oscillation.However,in consideration of accuracy,C must be much larger than the inherent stray capacitance in the system (unless this capacitance can be measured and taken into account).R must be much larger than the COS/MOS ”ON”resistance in series with it,which typically is hundreds of ohms.In addition,with very large values of R,some short-term instability with respect to time may be noted.The recommended values for these components to maintain agreement with previously calculated formulas without trimming should be :C >100pF,up to any practical value,for astable modes ;C >1000pF,up to any practical value,for monostable modes.10K Ω<R <1M Ω.TEST CIRCUITC L =50pF or equivalent (includes jig and probe capacitance)R L =200K ΩR T =Z OUT of pulse generator (typically 50Ω)HCF4047B10/12DIM.mm.inchMIN.TYP MAX.MIN.TYP.MAX. a10.510.020B 1.39 1.650.0550.065 b0.50.020b10.250.010D200.787 E8.50.335e 2.540.100e315.240.600F7.10.280 I 5.10.201 L 3.30.130Z 1.27 2.540.0500.100Plastic DIP-14MECHANICAL DATAP001AHCF4047B11/12DIM.mm.inch MIN.TYPMAX.MIN.TYP.MAX.A 1.750.068a10.10.20.0030.007a2 1.650.064b 0.350.460.0130.018b10.190.250.0070.010C 0.50.019c145°(typ.)D 8.558.750.3360.344E 5.86.20.2280.244e 1.270.050e37.620.300F 3.8 4.00.1490.157G 4.6 5.30.1810.208L 0.5 1.270.0190.050M 0.680.026S8°(max.)SO-14MECHANICAL DATAPO13GHCF4047BInformation furnished is believed to be accurate and reliable.However,STMicroelectronics assumes no responsibility for the consequences of use of such information nor for any infringe ment 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 STMicroelectronics.Specifications mentioned in this publication are subject to change without notice.This publication supersedes and replaces all information previously supplied.STMicroelectronics products are not authorized for use as critical components in life support devices or systems without express written approval of STMicroelectronics.©The ST logo is a registered trademark of STMicroelectronics©2001STMicroelectronics-Printed in Italy-All Rights ReservedSTMicroelectronics GROUP OF COMPANIESAustralia-Brazil-China-Finland-France-Germany-Hong Kong-India-Italy-Japan-Malaysia-Malta-MoroccoSingapore-Spain-Sweden-Switzerland-United Kingdom©http://w 12/12。
HCF4021B中文资料
VIH Input High
0.5/4.5 < 1 5 3.5
3.5
3.5
Voltage
1/9 < 1 10 7
7
7
1.5/13.5 < 1 15 11
11
11
VIL Input Low Voltage
4.5/0.5 < 1 5
1.5
9/1 < 1 10
3
1.5
1.5
3
3
13.5/1.5 < 1 15
5
5
0.04 5
150
10
10
0.04 10
300
15
20
0.04 20
600
0/20
20
100
0.08 100
3000
0/ 5
HCF Types
0/10
0/15
5
20
0.04 20
150
10
40
0.04 40
300
15
80
0.04 80
600
VOH Output High
0/ 5
< 1 5 4.95
lines and synchronous with the positive transition of the clock line. In the HCC/HCF4021B, the CLOCK input of the internal stage is ”forced” whenasynchronous parallel entry is made. Register expansion using multiple package is permitted.
轿厢串行通讯板说明书
目录目录 (1)轿厢串行通讯板设计说明书 (1)1 简介 (1)1.1功能介绍 (1)1.2 轿厢串行通讯板内部结构框图 (1)2 硬件设计 (2)2.1主控芯片电路设计 (2)2.2 HCF4094工作原理简介及电路设计 (2)2.2.1 HCF4094工作原理简介 (2)2.2.2 HCF4094电路设计 (3)2.3 TD62783AFG工作原理简介及电路设计 (4)2.3.1 TD627G83AF工作原理简介 (4)2.3.2 TD627G83AFG电路设计 (4)2.4 按钮电路的设计 (5)2.5 LM339的工作原理及电路设计 (5)2.5.1 LM339的工作原理 (5)2.5.2 LM339电路设计 (6)2.6 HEF4021BT的工作原理及电路设计 (7)2.6.1 HEF4021BT的结构 (7)2.6.2 HEF4021BT数据输入输出的原理及电路设计 (8)2.7 系统通讯功能电路的设计 (9)2.8 供电电路设计 (9)2.9 轿厢串行通讯板的输入输出扩展接口设计 (10)附录 (11)轿厢串行通讯板设计说明书1 简介1.1功能介绍轿厢串行通讯板是电梯轿厢内部呼梯的设备,主要安装在轿厢内。
其将乘客目的楼层通过串行通讯总线发送给电梯控制器,在按下内召板的楼层按钮时,点亮电源灯,等到手指松开按钮时,通过轿厢串行通讯板上的达林顿驱动管的漏电流给LED灯提供电流,因而保持灯一直亮着,直到到达目的楼层,灯熄灭。
1.2 轿厢串行通讯板内部结构框图如图1-2所示为轿厢串行通讯板内部结构框图。
TJA1050RXDTXDM0516STROBECLOCKNET_DATAOE(HCF4094)x4D1D2…D32(TD62783BT)x4灌电流信号1灌电流信号2…灌电流信号32内呼板按钮电路(LM339)x8电平信号1电平信号2...电平信号32(HEF4021BT)x4…电平信号1电平信号2电平信号32输出端口下一块扩展板的输入端NET_DSNET_Q7NET_Q’S图1-2 轿厢串行通讯板内部结构框图2 硬件设计2.1主控芯片电路设计通讯板主芯片采用的是M0516,如图2-1所示主控芯片外围电路原理图,它是ARM® Cortex™-M0内核的32位微控制器,延续ARM公司最小型、最低功耗、低闸数、精简指令集的Cortex-M0处理器,是一款具有很高性价比的产品。
一种嵌入式无线通信系统设计及实现
一种嵌入式无线通信系统设计及实现发表时间:2010-02-05T09:19:15.107Z 来源:《企业技术开发》2009年第11期供稿作者:郭亚中1,徐夏2 [导读] 针对目前车载系统与地面设备的无线通讯中存在的数据量大、数据传输速度慢、易丢失等问题郭亚中1,徐夏2(1.江苏省交通科学研究院股份有限公司,江苏南京210017;2.南京信息职业技术学院,江苏南京 210046)作者简历:郭亚中,男,博士研究生,主要从事交通电子方面的研究的工作。
摘要:针对目前车载系统与地面设备的无线通讯中存在的数据量大、数据传输速度慢、易丢失等问题,提出了一种嵌入式无线数据通信系统的设计方案。
该方案选用了一个较常用的ARM7芯片,将数据存入一个FLASH存储芯片,再由FLASH芯片导出至串口,利用现有网络实现通信。
该方案保留了最常用的串口,实现了稳定的数据通信,已成功应用于某车载系统与后台的无线传输。
关键词:嵌入式系统;无线通信;存储芯片在目前的应用环境中,利用现有网络实现大容量数据通信的环境还有大量的需求,因此利用现有无线通讯方式实现数据无缝传输具有重要意义。
在城市无线通讯中,特别是车载系统的无线通讯中,使用嵌入式已成共识,然而实际的应用表明目前利用现有通讯方式的数据传输还存在着一定的障碍,它们主要体现在数据量大,传输数据缓慢,传输过程不稳定。
为了适应日益复杂的城市环境,城市信号有的地方强,但是干扰非常强烈。
为了更好的在车载系统当中实现无障碍数据通讯。
本文提出一种嵌入式的无线数据通信系统设计方案,并将其应用于某车载系统的无线通讯模块当中,并在实际当中进行了验证。
1系统设计方案嵌入式系统具有内核小、专用性强、系统精简等特点,一般需要专门的开发工具和运行环境。
嵌入式的无线数据通信系统设计方案如图1所示。
系统总体分三部分,第一部分是车载系统,功能是接收车内信息,通过发送天线发出;第二部分是嵌入式部分,包括接收天线、ARM 芯片、FLASH存储芯片以及GPRS/CDMA模块;第三部分是后台部分,包括Internet接入模块和后台服务器。
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HCC/HCF4099BSeptembe r 19888-BIT ADDRESSABLE LATCH.SERIAL DATA INPUT -ACTIVE PARALLEL OUTPUT.STORAGE REGISTER CAPABILITY -MASTER CLEAR.CAN FUNCTION AS DEMULTIPLEXER.STANDARDIZED SYMMETRICAL OUTPUT CHARACTERISTICS.QUIESCENT CURRENT SPECIFIED TO 20V FOR HCC DEVICE.5V,10V,AND 15V PARAMETRIC RATINGS .INPUT CURRENT OF 100nA AT 18V AND 25°C FOR HCC DEVICE.100%TESTED FOR QUIESCENT CURRENT .MEETS ALL REQUIREMENTS OF JEDECTEN-TATIVE STANDARD N °.13A,”STANDARD SPECIFICATIONS FOR DESCRIPTION OF ”B”SERIES CMOS DEVICES”DESCRIPTIONThe HCC4099B (extended temperature range)andHCF4099B (intermediate temperature range)are monolithic integrated circuits,available in 16-lead dual in-line plastic or ceramic package and plastic micro package.The HCC/HCF4099B 8-bit addressable latch is a serial-input,parallel-output storage register that can perform a variety of functions.Data are in-putted to a particular bit in the latch when that bit is addressed (by means of inputs A0,A1,A2)and when WRITE DISABLE is at a low level.When WRITE DISABLE is high,data entry is inhibited ;however,all 8outputs can be continuously read in-dependen t of WRITE DISABLE and address inputs.A master RESET input is available,which resets all bits to a logic ”0”level when RESET and WRITE DISABLE are at a high level.When RESET is at a high level,and WRITE DISABLE is at a low level,the latch acts as a 1-of-8demultiplexer ;the bit that is addressed has an active output which follows the data input,while all unaddr essed bits are held to a logic ”0”level.ORDER CODES :HCC4099B F HCF4099BM1HCF4099BE Y HCF4099BC1M1Micro Package C1Plastic Chip CarrierEYPlastic Package FCeramic Frit Seal PackagePIN CONNECTIONS1/14FUNCTIONAL DIAGRAMABSOLUTE MAXIMUM RATINGSSymbol Parameter Value UnitV DD*Supply Voltage:HCC TypesHCF Types –0.5to+20–0.5to+18VVV i Input Voltage–0.5to V DD+0.5V I I DC Input Current(any one input)±10mAP t o t Total Power Dissipation(per package)Dissipation per Output Transistorfor T o p=Full Package-temperature Range 200100mWmWT o p Operating Temperature:HCC TypesHCF Types –55to+125–40to+85°C°CT s t g Storage Temperature–65to+150°C Stresses abo ve listed und er”Absolute Maximum Ratings”may caus e permanent damage to the dev ice.This is a stress rating only and functional operation of the dev ice at these or any other con ditions abo ve those indicated in the operational sections of this specification is not implied.Exposure to abso lute maximum rating con ditions for external periods may affect devic e reliability.*All voltage values are referred to V SS pin voltage.RECOMMENDED OPERATING CONDITIONSSymbol Parameter Value UnitV DD Supply Voltage:HCC TypesHCF Types 3to183to15VVV I Input Voltage0to V DD VT o p Operating Temperature:HCC TypesHCF Types –55to+125–40to+85°C°CHCC/HCF4099B 2/14LOGIC DIAGRAMDefinition of WRITE DIABLE ON TimeMode SelectionTypesW D R AddressedLatchUnaddressedLatchA00Follows Data Holds PreviousStateB01Follows Data Reset to”0”(active high8-channeldemultiplexer)C10Holds Previous StateD11Reset to”0”Reset to”0”WD=WRITE DISABLE R=RESET1of8latchesMaster Timing DiagramHCC/HCF4099B3/14STATIC ELECTRICAL CHARACTERISTICS (over recommended operatin g conditions)Test ConditionsValueV I V O |I O |V D D T L o w *25°C T Hi g h *SymbolParameter (V)(V)(µA)(V)Min.Max.Min.Typ.Max.Min.Max.UnitI LQuiescent CurrentHCC Types 0/5550.045150µA0/1010100.04103000/1515200.04206000/20201000.081003000HCFTypes0/55200.04201500/1010400.04403000/1515800.0480600V OHOutput High Voltage0/5<15 4.95 4.95 4.95V0/10<1109.959.959.950/15<11514.9514.9514.95V OLOutput Low Voltage5/0<150.050.050.05V 10/0<1100.050.050.0515/0<1150.050.050.05V IHInput High Voltage0.5/4.5<15 3.5 3.5 3.5V1/9<1107771.5/13.5<115111111V ILInput Low Voltage4.5/0.5<15 1.5 1.5 1.5V 9/1<11033313.5/1.5<115444I OHOutput Drive CurrentHCC Types 0/52.55–2–1.6–3.2–1.15mA0/5 4.65–0.64–0.51–1–0.360/109.510–1.6–1.3–2.6–0.90/1513.515–4.2–3.4–6.8–2.4HCFTypes 0/52.55–1.53–1.36–3.2–1.10/54.65–0.52–0.44–1–0.360/109.510–1.3–1.1–2.6–0.90/1513.515–3.6–3.0–6.8–2.4I OLOutput Sink CurrentHCCTypes0/50.450.640.5110.36mA 0/100.510 1.6 1.3 2.60.90/15 1.515 4.2 3.4 6.8 2.4HCFTypes0/50.450.520.4410.360/100.510 1.3 1.1 2.60.90/151.515 3.63.06.8 2.4I IH ,I ILInput Leakage CurrentHCCTypes 0/18Any Input18±0.1±10–5±0.1±1µA HCFTypes 0/1515±0.3±10–5±0.3±1C I Input CapacitanceAny Input57.5pF*T LOW =–55°C for HCC device :–40°C for HCF device .*T HIGH =+125°C for HCC device :+85°C for HCF device .The Noise Margin for both ”1”and ”0”level is :1V min.with V DD =5V,2V min.with V DD =10V,2.5V min.with V DD =15V,HCC/HCF4099B4/14DYNAMIC ELECTRICAL CHARACTERISTICS (T amb =25°C,C L =50pF,R L =200k Ω,typical temperature coefficient for all V D D values is 0.3%/°C,all input rise and fall times =20ns)ValueSymbolParameterTest Conditions (see master timingdiagram)V D D (V)Min.Typ.Max.Unitt PL H ,t P HL PropagationDelay TimeData to Output(1)5200400ns 10751501550100Write Disable to Output(2)520040010801601560120Address to Output(9)5225450101002001575150t PHLPropagation Delay TimeReset to Output(3)517535010801601565130t THL ,t T L H TransitionTimeAny Output5100200ns 1050100154080t WPulse WidthData(4)5200100ns1010050158040Address(8)5400200102001001512565Reset(5)515075107540155025t s e t u pSetup TimeData to Write Disable(6)510050ns 105025153520t h o ldHold TimeData to Write Disable(7)515075ns 107540155025HCC/HCF4099B5/14Minimum Output Low(sink)Current Charac-teristics.Typical Output High(source)Current Charac-teristics.Minimum Output High(source)Current Charac-teristics.Typical Propagation Delay Time(data to Qn)vs. Load Capacitance.Typical Transition Time vs.Load Capacitance.Typical Output Low(sink)Current Characteristics. HCC/HCF4099B6/14HCC/HCF4099B Typical Dynamic power Dissipation vs.AddressCycle Time.TYPICAL APPLICATIONSA/D Converter7/14HCC/HCF4099BTYPICAL APPLICATIONSMultiple Selection Decoding–4x4Crosspoint Switch 1of16Decoder/demultiplexer8/14HCC/HCF4099BTEST CIRCUITSQuiescent Device Current.Input Voltage.Input Current.9/14HCC/HCF4099BPlastic DIP16(0.25)MECHANICAL DATAmm inch DIM.MIN.TYP.MAX.MIN.TYP.MAX.a10.510.020B0.77 1.650.0300.065 b0.50.020b10.250.010D200.787 E8.50.335e 2.540.100e317.780.700F7.10.280I 5.10.201L 3.30.130Z 1.270.050P001C 10/14Ceramic DIP16/1MECHANICAL DATAmm inchDIM.MIN.TYP.MAX.MIN.TYP.MAX. A200.787 B70.276 D 3.30.130E0.380.015e317.780.700F 2.29 2.790.0900.110 G0.40.550.0160.022 H 1.17 1.520.0460.060 L0.220.310.0090.012 M0.51 1.270.0200.050 N10.30.406 P7.88.050.3070.317 Q 5.080.200P053DSO16(Narrow)MECHANICAL DATAmm inchDIM.MIN.TYP.MAX.MIN.TYP.MAX.A 1.750.068 a10.10.20.0040.007 a2 1.650.064 b0.350.460.0130.018 b10.190.250.0070.010 C0.50.019c145°(typ.)D9.8100.3850.393 E 5.8 6.20.2280.244 e 1.270.050e38.890.350F 3.8 4.00.1490.157G 4.6 5.30.1810.208 L0.5 1.270.0190.050 M0.620.024 S8°(max.)P013HPLCC20MECHANICAL DATAmm inchDIM.MIN.TYP.MAX.MIN.TYP.MAX. A9.7810.030.3850.395 B8.899.040.3500.356 D 4.2 4.570.1650.180 d1 2.540.100d20.560.022E7.378.380.2900.330 e 1.270.050e3 5.080.200F0.380.015G0.1010.004 M 1.270.050M1 1.140.045P027AInformation furnished is believed to be accurate and reliable.However,SGS-THOMSON Microelectronics assumes no responsability for the consequences of use of such information nor for any infringement of patents or other rights of third parties which may results from its use.No license is granted by implication or otherwise under any patent or patent rights of SGS-THOMSON Microelectronics.Specificationsmentioned in this publication are subject to change without notice.This publication supersedes and replaces all information previously supplied.SGS-THOMSON Microelectronics products are not authorized for use ascritical components in life support devices or systems without express written approval of SGS-THOMSON Microelectonics.©1994SGS-THOMSON Microelectronics-All Rights ReservedSGS-THOMSON Microelectronics GROUP OF COMPANIESAustralia-Brazil-France-Germany-Hong Kong-Italy-Japan-Korea-Malaysia-Malta-Morocco-The Netherlands-Singapore-Spain-Sweden-Switzerland-Taiwan-Thailand-United Kingdom-U.S.A。