S1C60N08/60R08データシート
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- ぜんすけ うばら
- 6 years ago
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1 PF244-0 Micro MN SC60N08/60R08 4-bit Single Chip Microcomputer SC60N08.0 SC () SC60R08 SC60A08.0 SC, SC () SC60L08.5 SC () SC60A08/60R08 µ µ µ µ µ µ µ µ µ SC60A08/60R08 SC60R08
2 SC60N08/60R08 SC60N08/60A08/60R08 SC60L08 SC60N08/60A08/60R08 SC60L08 SC60N08 µ µ SC60L08 µ µ SC60A08 µ µ µ SC60R08 µ SC60N08 µ SC60A08 µ SC60N08 µ SC60A08 µ SC60A08 2
3 SC60N08/60R08 SC60N08/60L08/60A08 RM 4,096 words 2 bits System Reset Control RESET Core CPU SC60C SC SC2 SC SC4 SC nterrupt Generator RAM 82 words 4 bits nput Port K00~K0, K0 K~K2 TEST CM0~ SEG0~47 LCD Driver 48 SEG 4 CM / Port P00~P0 P0~P L CA CB S Power Controller utput Port Sound Generator R00~R0 R0~R SD Serial /F SUT SCLK Event Counter Timer AMPP AMPM Comparator Stopwatch SC60R08 SDA SCL Serial EEPRM nterface Error Detecting Circuit ERRUT RM Emulator 4,096 words 2 bits System Reset Control TPRST RESET Core CPU SC60C SC SC2 SC SC4 SC nterrupt Generator RAM 82 words 4 bits nput Port K00~K0, K0 K~K2 TEST CM0~ SEG0~47 LCD Driver 48 SEG 4 CM / Port P00~P0 P0~P L CA CB S Power Controller utput Port Sound Generator R00~R0 R0~R SD Serial /F SUT SCLK Event Counter Timer AMPP AMPM Comparator Stopwatch
4 4 SC60N08/60R08 QFP5-00pin CM CM0 SEG47 SEG46 SEG45 SEG44 SEG4 SEG42 SEG4 SEG40 SEG9 SEG8 SEG7 SEG6 SEG5 SEG4 SEG SEG2 SEG SEG SEG0 SEG9 SEG8 SEG7 SEG6 SEG5 SEG4 SEG SEG2 SEG SEG0 AMPP AMPM K2 K22 K2 K K0 K0 K SEG29 SEG28 SEG27 SEG26 SEG SEG24 TEST SEG2 SEG22 SEG2 SEG SEG9 SEG8 SEG7 SEG6 SEG5 SEG4 SEG SEG2 SEG K0 K00 SUT N.C. SCLK P0 P02 P0 P00 N.C. N.C. P P2 P P0 R0 R02 R0 R00 N.C. = No Connection R2 R R0 R RESET SC4 SC S SC2 SC L CA CB N.C. CM CM NDEX SC60N08/60L08/60A08 QFP5-00pin NDEX SEG47 SEG46 SEG45 SEG44 SEG4 SEG42 SEG4 SEG40 SEG9 SEG8 SEG7 SEG6 SEG5 SEG4 SEG SEG2 SEG SEG0 SEG29 SEG SEG9 SEG8 SEG7 SEG6 SEG5 SEG4 SEG SEG2 SEG SEG0 AMPP AMPM K2 K22 K2 K K0 K0 K02 K SEG27 SEG26 SEG SEG24 TEST SEG2 SEG22 SEG2 SEG SEG9 SEG8 SEG7 SEG6 SEG5 SEG4 SEG SEG2 N.C. SEG SEG K00 SUT N.C. SCLK N.C. P0 P02 P0 P00 P P2 P P0 R0 R02 R0 R00 R2 R N.C. = No Connection R0 R RESET SC4 SC S SC2 SC L CA CB N.C. CM CM2 CM CM0 SC60N08/60L08/60A08
5 5 SC60N08/60R08 S L CA, CB SC SC2 SC SC4 K00~K0 K0 K~K2 P00~P0 P0~P R00~R0 R0 R R R2 SUT SCLK AMPP AMPM SEG0~47 CM0~ RESET TEST * * * * * * * * QFP , ~ ~54 70~67 76~7 80~ ~28, 26~ 2,, 00, QFP , ~ ~5 70~67 74~7 78~ ~9, 7~26, 24~ 00~97 84 () () / / /
6 6 SC60N08/60R08 QFP5-00pin QFP5-00pin CM CM0 SEG47 SEG46 SEG45 SEG44 SEG4 SEG42 SEG4 SEG40 SEG9 SEG8 SEG7 SEG6 SEG5 SEG4 SEG SEG2 SEG SEG SEG0 SEG9 SEG8 SEG7 SEG6 SEG5 SEG4 SEG SEG2 SEG SEG0 AMPP AMPM K2 K22 K2 K K0 K0 K SEG29 SEG28 SEG27 SEG26 SEG SEG24 TEST SEG2 SEG22 SEG2 SEG SEG9 SEG8 SEG7 SEG6 SEG5 SEG4 SEG SEG2 SEG K0 K00 SUT TPRST SCLK P0 P02 P0 P00 SCL SDA P P2 P P0 R0 R02 R0 R R2 R R0 R RESET SC4 SC S SC2 SC L CA CB ERRUT CM CM NDEX SC60R NDEX SEG47 SEG46 SEG45 SEG44 SEG4 SEG42 SEG4 SEG40 SEG9 SEG8 SEG7 SEG6 SEG5 SEG4 SEG SEG2 SEG SEG0 SEG29 SEG SEG8 SEG7 SEG6 SEG5 SEG4 SEG SEG2 SEG SEG0 AMPP AMPM K2 K22 K2 K K0 K0 K02 K0 K SEG27 SEG26 SEG SEG24 TEST SEG2 SEG22 SEG2 SEG SEG9 SEG8 SEG7 SEG6 SEG5 SEG4 SEG SEG2 SEG SEG0 SEG SUT TPRST SCLK P0 P02 P0 P00 SCL SDA P P2 P P0 R0 R02 R0 R00 R2 R R0 R RESET SC4 SC S SC2 SC L CA CB ERRUT CM CM2 CM CM0 SC60R08
7 SC60N08/60R08 QFP5-00 QFP5-00 S L CA, CB SC SC2 SC SC4 K00~K0 K0 K~K2 P00~P0 P0~P R00~R0 R0 R R2 R SUT SCLK AMPP AMPM SEG0~47 CM0~ RESET TEST SCL SDA ERRUT TPRST , ~ ~54 70~67 76~7 80~ ~28, 26~ 2,, 00, , ~ ~52 68~65 74~7 78~ ~26, 24~ 00~ / () () / / / / (+) (-) LCD(-.05/2 ) LCD(2 L-2.0) LCD( /2 ) CR * CR * BZ * SF * FUT * BZ * LCD * LCD(/2, //4 *) 7
8 SC60N08/60R08 8
9 SC60N08/60R08 ~ ~ 9
10 0 SC60N08/60R08 00H 0FH 0H FFH 2 0H CPU TPRST SDA SCL ERRUT SC RESET CPU RM 4,096 2 EEPRM A2 A A0 EEPRM SC60R08
11 SC60N08/60R08
12 SC60N08/60R08 * *2 SC Σ Topr Tstg Tsol PD -5.0 ~ ~ 0.5 S-0. ~ ~ ~ 260 C, 0sec () 2 2 (=0) ma C C mw * * SC Σ Topr Tstg Tsol PD -2.0 ~ ~ 0.5 S-0. ~ ~ ~ 260 C, 0sec () 2 2 (=0) ma C C mw fsc =0 -.5 (Ta=-~70 C) Typ. Max khz khz fsc =0 =0, * =0, (Ta=-~70 C) Typ. Max * khz khz fsc fsc =0 ±5%, =-2.2 ~ (Ta=-~70 C) Typ. Max * khz khz khz 2
13 SC60N08/60R08 H H2 L L2 H H2 H L H H2 L L2 H L H4 L4 H5 L5 ( =0, =-.0, fsc=2.768khz, Ta= C, S/L~, C~C5=0.µF) Typ. Max. K00~0, K0, K~2, P00~0, P0~ 0.2 0, (SDA) SCLK, RESET, TEST, (TPRST) 0. 0 K00~0, K0, K~2, P00~0, P0~ 0.8, (SDA) SCLK, RESET, TEST, (TPRST) 0.9 H=0 K00~0, K0, K~2, P00~0, P0~ Pull-down, SCLK, AMPP, AMPM (SDA) H2=0 K00~0, K0, K~2 Pull-down, SCLK H=0 P00~0, P0~, RESET, TEST Pull-down (TPRST) L= K00~0, K0, K~2, P00~0, P0~, SCLK, AMPP, AMPM, RESET, TEST (TPRST), (SDA) H=0. R0, R, R H2=0. R00~0, R2, P00~0, P0~, SUT SCLK, (SDA), (ERRUT), (SCL) L=0.9 R0, R, R L2=0.9 R00~0, R2, P00~0, P0~, SUT SCLK, (SDA), (ERRUT), (SCL) H=-0.05 CM0~ L=+0.05 H4=-0.05 SEG0~47 L4=+0.05 H5=0. SEG0~47 L5= ma ma ma ma ( =0, =-.5, fsc=2.768khz, Ta= C, S/L~, C~C5=0.µF) H K00~0, K0, K~2, P00~0, P0~ 0.2 Typ. Max. 0 H2 L SCLK, RESET, TEST K00~0, K0, K~2, P00~0, P0~ L2 SCLK, RESET, TEST 0.9 H H=0 Pull-down K00~0, K0, K~2, P00~0, P0~, SCLK AMPP, AMPM H2 H2=0 Pull-down K00~0, K0, K~2, SCLK 2 0 H H=0 Pull-down P00~0, P0~ RESET, TEST 2 60 L L= K00~0, K0, K~2, P00~0, P0~ , SCLK, AMPP, AMPM RESET, TEST H H2 L L2 H L H4 L4 H5 L5 H=0. R0, R, R H2=0. R00~0, R2, P00~0, P0~ SUT, SCLK L=0.9 R0, R, R L2=0.9 R00~0, R2, P00~0, P0~ SUT, SCLK H=-0.05 CM0~ L=+0.05 H4=-0.05 SEG0~47 L4=+0.05 H5=0. SEG0~47 L5=
14 4 SC60N08/60R08 * 2 ( =0, =-.0, fsc=2.768khz, Ta= C, CG=pF, S/L~, C~C5=0.µF) L B0 B B2 B B4 B5 B6 B7 tb BS tbs P M F tamp P m msec Max. / / Typ / / ~ Ω Ω Ω BLC="0" BLC="" BLC="2" BLC="" BLC="4" BLC="5" BLC="6" BLC="7" (AMPP) (AMPM) P=-.5 M=P±5m * * 2 ( =0, =-.0, fsc=2.768khz, Ta= C, CG=pF, S/L~, C~C5=0.µF) L B0 B B2 B B4 B5 B6 B7 tb BS tbs P M F tamp P m msec ~ Ω Ω Ω BLC="0" BLC="" BLC="2" BLC="" BLC="4" BLC="5" BLC="6" BLC="7" (AMPP) (AMPM) P=-.5 M=P±5m * Max. / / Typ / /
15 5 SC60N08/60R08 * 2 ( =0, =-.5, fsc=2.768khz, Ta= C, CG=pF, S/L~, C~C5=0.µF) L B0 B B2 B B4 B5 B6 B7 tb BS tbs P M F tamp P m msec ~ Ω Ω Ω BLC="0" BLC="" BLC="2" BLC="" BLC="4" BLC="5" BLC="6" BLC="7" (AMPP) (AMPM) P=-. M=P±0m * Max L L Typ L - 0. L * 2 ( =0, =-.5, fsc=2.768khz, Ta= C, CG=pF, S/L~, C~C5=0.µF) L B0 B B2 B B4 B5 B6 B7 tb BS tbs P M F tamp P m msec ~ Ω Ω Ω BLC="0" BLC="" BLC="2" BLC="" BLC="4" BLC="5" BLC="6" BLC="7" (AMPP) (AMPM) P=-. M=P±0m * Max L 0.85 L Typ L - 0. L
16 6 SC60N08/60R08 * 2 ( =0, =-.0, fsc=2.768khz, Ta= C, CG=pF, S/L~, C~C5=0.µF) L B0 B B2 B B4 B5 B6 B7 tb BS tbs P M F tamp P m msec ~ Ω Ω Ω ± * * Max L L Typ L - 0. L * 2 ( =0, =-.0, fsc=2.768khz, Ta= C, CG=pF, S/L~, C~C5=0.µF) L B0 B B2 B B4 B5 B6 B7 tb BS tbs P M F tamp P m msec ~ Ω Ω Ω ± * * Max L L Typ L - 0. L
17 7 SC60N08/60R08 * 2 ( =0, =-.0, fsc=2.768khz, Ta= C, CG=pF, S/L~, C~C5=0.µF) L B0 B B2 B B4 B5 B6 B7 tb BS tbs P M F tamp P m msec Max. / / Typ / / ~ Ω Ω Ω BLC="0" BLC="" BLC="2" BLC="" BLC="4" BLC="5" BLC="6" BLC="7" (AMPP) (AMPM) P=-.5 M=P±5m * * 2 ( =0, =-.0, fsc=2.768khz, Ta= C, CG=pF, S/L~, C~C5=0.µF) L B0 B B2 B B4 B5 B6 B7 tb BS tbs P M F tamp P m msec ~ Ω Ω Ω BLC="0" BLC="" BLC="2" BLC="" BLC="4" BLC="5" BLC="6" BLC="7" (AMPP) (AMPM) P=-.5 M=P±5m * Max. / / Typ / /
18 8 SC60N08/60R08 * 2 ( =0, =-.0, fsc=2.768khz, Ta= C, CG=pF, S/L~, C~C5=0.µF) L B0 B B2 B B4 B5 B6 B7 tb BS tbs P M F tamp P m msec ~ Ω Ω Ω ± * * Max L L Typ L - 0. L * 2 ( =0, =-.0, fsc=2.768khz, Ta= C, CG=pF, S/L~, C~C5=0.µF) L B0 B B2 B B4 B5 B6 B7 tb BS tbs P M F tamp P m msec ~ Ω Ω Ω ± * * Max L L Typ L - 0. L
19 SC60N08/60R08 ( =0, =-.0, QMC46, CG=pF, CD=, Ta= C) Typ. Max. sta stp tsta 5sec () tstp 0sec () CD pf f/ =-.8 ~ ppm f/ C -0 0 ppm f/ CG CG=5 ~ pf 5 45 ppm hho () -.5 Rleak SC 0 MΩ sta stp CD f/ f/ C f/ CG hho Rleak ( =0, =-.5, QMC46, CG=pF, CD=, Ta= C) Typ. Max. *~ ~ (-0.9)* pf ppm ppm ppm MΩ sta stp CD f/ f/ C f/ CG hho Rleak ( =0, =-.0, QMC46, CG=pF, CD=, Ta= C) Typ. 45 Max pf ppm ppm ppm MΩ tsta 5sec () tstp 0sec () =-2.2 ~ -.5 CG=5 ~ pf () SC fsc sta tsta stp () =-2.2 ~ -.5 () ( =0, =-.0, RCR=82kΩ, Ta= C) Typ. 480kHz Max. 0 % msec ( =0, =-.0, 0kHz, CGC=CDC=00pF, Ta= C) Typ. Max. sta () -2.2 tsta =-2.2 ~ msec stp ()
20 SC60N08/60R08 LCD K00 K0 K0 K K2 SEG0 SEG47 CM0 CM CB CA L C S / P00 P0 P0 P SUT SCLK AMPM AMPP SC60N08 SC60L08 SC SC2 S SC SC4 RESET CGX X'tal C5 N.C. N.C..0 (SC60N08) or.5 (SC60L08) R00 R0 R2 (FUT) R (LAMP) R (BZ) R0 (BZ) TEST + CP Lamp Piezo X'tal CGX C C2 C C4 C5 CP RA RA kHz or 8.400kHz, C = 5kΩ 5~pF 0.µF 0.µF 0.µF 0.µF 0.µF.µF 00Ω 00Ω R (BZ) R0 (BZ) RA RA2 Piezo
21 2 SC60N08/60R08 K00 K0 K0 K K2 P00 P0 P0 P SUT SCLK AMPM AMPP R00 R0 R (LAMP) R2 (FUT) SEG0 SEG47 CM0 CM R0 (BZ) R (BZ) CB CA L SC SC2 S SC SC4 RESET TEST + Lamp Piezo C C5 CR CGC RCR CDC.0 CP CGX X'tal SC60A08 LCD / S X'tal CGX CR CGC CDC RCR C C2 C C4 C5 CP RA RA2 CR 2.768kHz or 8.400kHz, C = 5kΩ 5~pF 0kHz 00pF 00pF 82kΩ 0.µF 0.µF 0.µF 0.µF 0.µF.µF 00Ω 00Ω R (BZ) R0 (BZ) RA2 RA Piezo 2 2
22 22 SC60N08/60R08 K00 K0 K0 K K2 P00 P0 P0 P SUT SCLK TPRST AMPM AMPP R (LAMP) R2 (FUT) SEG0 SEG47 CM0 CM R0 (BZ) R (BZ) CB CA L SC SC2 S SC SC4 RESET TEST + Lamp Piezo C C5 N.C. N.C. CP CGX X'tal SC60R08 LCD.0 / S X'tal CGX C C2 C C4 C5 CP RA RA2 C 2.768kHz or 8.400kHz 5~pF 0.µF 0.µF 0.µF 0.µF 0.µF.µF 00Ω 00Ω R (BZ) R0 (BZ) RA2 RA Piezo ERRUT SCL SDA A0 A A2 CC NC SCL SDA C
23 2 SC60N08/60R08 K00 K0 K0 K K2 P00 P0 P0 P SUT SCLK TPRST AMPM AMPP SEG0 SEG47 CM0 CM CB CA L SC SC2 S SC SC4 RESET TEST + C C5 CR CGC RCR CDC.0 CP CGX X'tal SC60R08 LCD / S X'tal CGX CR CGC CDC RCR C C2 C C4 C5 CP RA RA2 C CR 2.768kHz or 8.400kHz 5~pF 0kHz 00pF 00pF 82kΩ 0.µF 0.µF 0.µF 0.µF 0.µF.µF 00Ω 00Ω R (BZ) R0 (BZ) RA2 RA Piezo 2 CR 2 R (LAMP) R2 (FUT) R0 (BZ) R (BZ) Lamp Piezo ERRUT SCL SDA A0 A A2 CC NC SCL SDA C
24 SC60N08/60R08 Plastic QFP5-00pin.6 ±0.4 ± NDEX 4 ± ± ±0. 0.4max 2.7 ± ± Plastic QFP5-00pin 6 ±0.4 4 ± ±0. 6 ±0.4 NDEX max.4 ± ±
25 SC60N08/60R08 X (0, 0) Die Y.7 mm.74 mm µ µ AMPP AMPM K2 K22 K2 K K0 K0 K02 K0 K00 SUT SCLK P0 P02 P0 P00 P P2 P P0 R0 R02 R0 R00 R2 R R0 R RESET X,294,64, ,048 -,78 -,08 -,48 -,704 -,704 -,704 -,704 -,704 -,704 -,704 -,704 -,704 -,704 Y,699,699,699,699,699,699,699,699,699,699,699,699,699,699,699,699,699,699,699,699,699,699,686,556,426,296,66, SC4* SC* S SC2 SC L CA CB CM CM2 CM CM0 SEG47 SEG46 SEG45 SEG44 SEG4 SEG42 SEG4 SEG40 SEG9 SEG8 SEG7 SEG6 SEG5 SEG4 SEG SEG2 SEG X -,704 -,704 -,704 -,704 -,704 -,704 -,704 -,704 -,704 -,704 -,704 -,704 -,704 -,704 -,704 -,45 -,285 -,55 -, Y ,022 -,5 -,28 -,4 -,54 -,67 -,699 -,699 -,699 -,699 -,699 -,699 -,699 -,699 -,699 -,699 -,699 -,699 -,699 -,699 -,699 -,699 -, SEG0 SEG29 SEG28 SEG27 SEG26 SEG SEG24 TEST SEG2 SEG22 SEG2 SEG SEG9 SEG8 SEG7 SEG6 SEG5 SEG4 SEG SEG2 SEG SEG0 SEG9 SEG8 SEG7 SEG6 SEG5 SEG4 SEG SEG2 SEG SEG0 X 795 9,055,85,5,445,704,704,704,704,704,704,704,704,704,704,704,704,704,704,704,704,704,704,704,704,704,704,704,704,704,704 Y -,699 -,699 -,699 -,699 -,699 -,699 -,62 -,465 -,0 -,80 -, ,00,60,290,4,5,680 µm
26 26 SC60N08/60R08 Y X (0, 0) 7.00 mm 8.5 mm Die µ µ AMPP AMPM K2 K22 K2 K K0 K0 K02 K0 K00 SUT TPRST SCLK P0 P02 P0 P00 SCL SDA P P2 P P0 R0 R02 R0 R00 R2 R R0 R X 2,89 2,68 2,82 2,27,87,66,60, ,064 -,275 -,566 -,82-2,26-2,405-2,685-2,978 -,686 Y,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,090 2,787 2,657 2,527 2,288 2,064,599, REST SC4 SC S SC2 SC L CA CB ERRUT CM CM2 CM CM0 SEG47 SEG46 SEG45 SEG44 SEG4 SEG42 SEG4 SEG40 SEG9 SEG8 SEG7 SEG6 SEG5 SEG4 SEG SEG2 SEG X -,4 -,6-2,8-2,7-2, -,899 -,595 -, ,42,446 Y, ,74 -,9 -,607 -,824-2,040-2,24-2,429-2,645-2,862 -,088 -,0 -,0 -,0 -,0 -,0 -,0 -,0 -,0 -,0 -,0 -,0 -,0 -,0 -,0 -,0 -,0 -, SEG0 SEG29 SEG28 SEG27 SEG26 SEG SEG24 TEST SEG2 SEG22 SEG2 SEG SEG9 SEG8 SEG7 SEG6 SEG5 SEG4 SEG SEG2 SEG SEG0 SEG9 SEG8 SEG7 SEG6 SEG5 SEG4 SEG SEG2 SEG SEG0 X,75 2,055 2,59 2,66 2,967,272,66 Y -,0 -,0 -,0 -,0 -,0 -,0 -,0 -,049-2,590-2,55-2,9 -,88 -,647 -,4 -, ,84,4,656,892 2,28 2,64 2,600 2,86 µm
27 SC60N08/60R08 27
28 SC60N08/60R08 SEK EPSN CRPRATN 0 http// L
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高速度スイッチングダイオード
は簡単な構成で FM ステレオ送信を実現できる IC です ステレオコンポジット信号を作るステレオ変調器及び FM 信号を空中へ輻射するための FM トランスミッタで構成されています ステレオ変調器は 3kHz 発振器より MAIN SUB 及びパイロット信号からなるコンポジット信号を発生します FM トランスミッタは FM 帯のキャリアを発振させコンポジット信号によって FM 変調をかけ FM 波を空中に輻射します
NL-22/NL-32取扱説明書_操作編
MIC / Preamp ATT NL-32 A C ATT AMP 1 AMP 2 AMP 3 FLAT FLAT CAL.SIG. OVER LOAD DET. AMP 4 AMP 5 A/D D/A CONV. AMP 6 AMP 7 A/D CONV. Vref. AMP 8 AMP 10 DC OUT AMP 9 FILTER OUT AC DC OUT AC OUT KEY SW Start
R3111x NO.JA R3111x CMOS IC IC Nch CMOS 2 Rx5VL TO-92 SOT-89 SOT-23-3 SOT-23-5 SC-82AB SON TYP. 0.8µA (VDD=1.5V) 0.7V 10.0V (Topt=2
NO.JA-71-6112 CMOS IC IC Nch CMOS 2 Rx5VL TO-92 SOT-89 SOT-23-3 SOT-23-5 SC-82AB SON1612-6 6 TYP..8µA (=1.5V).7V 1.V ().9V 6.V.1V ±2.% TYP. ±1ppm/ C Nch CMOS 2 6 TO-92 SOT-89 SOT-23-3 SOT-23-5 SC-82AB
RNA51xxシリーズ データシート
RNxx CMOS system RESET IC R0DS0090JJ000 Rev..00 0.0.0 RNxx. V,.6 V,.7 V,.8 V,.9 V,.0 V,. V,. V,. V,.6 V,.0 V, ±% CMOS, (0.7 μ),, ( MΩ) (RNxx) CMOS (RNBxx). V,.6 V,.7 V,.8 V,.9 V,.0 V,. V,. V,. V,.6 V,.0
RS5C313 Datasheet
RS5C313 1 CE SCLK SIO VSS 1 2 3 4 8 7 6 5 VDD OSCIN OSCOUT INTR 2 3 Ω Ω µ µ µ µ 4 5 1 6 2 2.1 µ 7 µ µ µ 8 9 10 3 11 12 1 13 2 14 3 15 4 Ω Ω Ω 16 5 6 17 7 Ω 18 8 19 9 20 10 Ω µ VDD3V VDD5V VDD3V µ CG10pF
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NJM88/A ma.µf SOT-89- TO--(NJM88ADL) ESON6-H(NJM88AKH) NJM88U NJM88ADL NJM88AKH (...97mm) 7dB typ. (f=khz, Vo=V ) Vno=µVrms typ..µf (Vo.7V) Io(max.)=mA Vo±.%.8V typ. (Io=mA ) ON/OFF SOT-89-(NJM88U) / TO--(NJM88ADL)
c a a ca c c% c11 c12 % s & %
c a a ca c c% c11 c12 % s & % c13 c14 cc c15 %s & % c16 c211 c21% c212 c21% c213 c21% c214 c21% c215 c21% c216 c21% c23 & & % c24 c25 c311 c312 % c31 c315 c32 c33 c34 % c35 c36 c37 c411 c N N c413 c c414c
R1EV5801MBシリーズ データシート
1M EEPROM (128-kword 8-bit) Ready/Busy and function R10DS0209JJ0100 Rev.1.00 131072 8 EEPROM ROM MONOS CMOS 128 2.7V 5.5V 150ns (max) @ Vcc=4.5V 5.5V 250ns(max) @ Vcc=2.7V 5.5V 20mW/MHz (typ) 110µW (max)
取扱説明書 [F-12C]
![取扱説明書 [F-12C]](/thumbs/43/23125913.jpg "取扱説明書 [F-12C]")
F-12C 11.7 1 2 3 4 5 6 7 8 9 10 11 12 13 14 a bc b c d d a 15 a b cd e a b c d e 16 17 18 de a b 19 c d 20 a b a b c a d e k l m e b c d f g h i j p q r c d e f g h i j n o s 21 k l m n o p q r s a X
R1LV0416Dシリーズ データシート
Wide Temperature Range Version 4M SRAM (256-kword 16-bit) RJJ03C0237-0100 Rev. 1.00 2007.05.24 262,144 16 4M RAM TFT 44 TSOP II 48 CSP 0.75mm 3.0V 2.7V 3.6V 55/70ns max 3µW typ V CC =3.0V 2CS 40 +85 C
AN2982FH-A
8mm IC AFM IC (AN 2980FH) 2.7 V 1µF IC AN2984FH (AN2980FH) 3 AGC 1µF IC AN2984FH ( AN2980FH ) (8mm) 0.10±0.10 49 64 (1.25) 12.00±0.20 10.00±0.20 48 33 1 0.50 16 0.18 +0.10 0.05 Seating plane 32 (1.25)
1
1 2 3 4 5 RESISTOR TUNABLE FILTER 6 LR-SERIES 1 1 2 3 4 5 6 7.1.1 1 1 1 RF1 CF1 RF2 CF2 INPUT 14 15 16 17 18 19 2 21 22 23 24 25 26 27 28 29 3 9 8 7 6 5 4 3 2 1 84 83 82 81 8 79 78 77 R R CF CF 56k R R
RH5RH 1A/ 2B/ 3B
1A/2B/3B 1A/2B/3B 1A/2B/3BCMOSPWMDC/DCIC 1APWMLx Lx 3DC/DC PWM ICPWMVFMDC/DC TYP. 15µA31A TYP. 2µA PWMDC/DC 2B/3B1AEXT ON 1mA 3B MAX..5µA... 1A... TYP. 15µA31A 1mA... MAX..9V... 2.5... TYP. 85... TYP.
51505agj.PDF
Type No. 2002 7 3 ******** 1.... 2 2.... 3 3.... 7 4. I/O... 9 5.... 11 6.... 12 7.... 16 8.... 16 9.... 16 10.... 17 11.... 18 CORPORATION Page 1/18 1. min. -20max. 70 min. -20max. 70 20 2 5 8 1 83.0
uPC2745TB,uPC2746TB DS
Bipolar Analog Integrated Circuits 3 V IC µpc275tb, µpc27tb IC3 V V NESAT ft = 2 GHz IC VCC = 2.73.3 V VCC = 3.3 V µpc275tbfu = 2.7 GHz TYP. @3 db µpc27tbfu = 1.5 GHz TYP. @3 db µpc275tbisl = 38 db TYP.
エミフィルによるノイズ対策 アプリケーション編
.pdf Noise Suppression by EMIFIL Application Guide Application Manual Cat.No.C35-2 .pdf .pdf .pdf 2 .pdf CD-ROM Power Supply CPU Gate Array RAM ROM Driver Driver Driver USB Chip Set Mouse Keyboard Display
RW1097-0A-001_V0.1_170106
INTRODUCTION RW1097 is a dot matrix LCD driver & controller LSI which is fabricated by low power CMOS technology. It can display 1line/2line/3line/4line/5line/6lines x 12 (16 x 16 dot format) with the
ADC121S Bit, ksps, Diff Input, Micro Pwr Sampling ADC (jp)
ADC121S625 ADC121S625 12-Bit, 50 ksps to 200 ksps, Differential Input, Micro Power Sampling A/D Converter Literature Number: JAJSAB8 ADC121S625 12 50kSPS 200kSPS A/D ADC121S625 50kSPS 200kSPS 12 A/D 500mV
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お客様各位 カタログ等資料中の旧社名の扱いについて 2010 年 4 月 1 日を以って NEC エレクトロニクス株式会社及び株式会社ルネサステクノロジが合併し 両社の全ての事業が当社に承継されております 従いまして 本資料中には旧社名での表記が残っておりますが 当社の資料として有効ですので ご理解の程宜しくお願い申し上げます ルネサスエレクトロニクスホームページ (http://www.renesas.com)
µµ InGaAs/GaAs PIN InGaAs PbS/PbSe InSb InAs/InSb MCT (HgCdTe)
1001 µµ 1.... 2 2.... 7 3.... 9 4. InGaAs/GaAs PIN... 10 5. InGaAs... 17 6. PbS/PbSe... 18 7. InSb... 22 8. InAs/InSb... 23 9. MCT (HgCdTe)... 25 10.... 28 11.... 29 12. (Si)... 30 13.... 33 14.... 37
0 s T (s) /CR () v 2 /v v 2 v = T (jω) = + jωcr (2) = + (ωcr) 2 ω v R=Ω C=F (b) db db( ) v 2 20 log 0 [db] (3) v R v C v 2 (a) ω (b) : v o v o =
![0 s T (s) /CR () v 2 /v v 2 v = T (jω) = + jωcr (2) = + (ωcr) 2 ω v R=Ω C=F (b) db db( ) v 2 20 log 0 [db] (3) v R v C v 2 (a) ω (b) : v o v o =](/thumbs/91/105491855.jpg "0 s T (s) /CR () v 2 /v v 2 v = T (jω) = + jωcr (2) = + (ωcr) 2 ω v R=Ω C=F (b) db db( ) v 2 20 log 0 [db] (3) v R v C v 2 (a) ω (b) : v o v o =")
RC LC RC 5 2 RC 2 2. /sc sl ( ) s = jω j j ω [rad/s] : C L R sc sl R 2.2 T (s) ( T (s) = = /CR ) + scr s + /CR () 0 s T (s) /CR () v 2 /v v 2 v = T (jω) = + jωcr (2) = + (ωcr) 2 ω v R=Ω C=F (b) db db(
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TC78S6FTG TC78S6FTG TC78S6FTG 2 PWM 1-2 W1-2 2W1-24W1-2 (1) V CC 2.7~5.5 6 V VM 2.5~15 18 V : (2) / STBY = Low ENABLE = Low STBY = High ENABLE = High 1. 1. A (peak) 1 TC78S6FTG 2. PD-Ta Ta 85 Power dissipation
Unidirectional Measurement Current-Shunt Monitor with Dual Comparators (Rev. B
www.tij.co.jp INA206 INA207 INA208 INA206-INA208 INA206-INA208 V S 1 14 V IN+ V S 1 10 V IN+ OUT CMP1 IN /0.6V REF 2 3 1.2V REF 13 12 V IN 1.2V REF OUT OUT CMP1 IN+ 2 3 9 8 V IN CMP1 OUT CMP1 IN+ 4 11
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1.0 1. Display Format 8*2 Character 2. Power Supply 3.3V 3. Overall Module Size 30.0mm(W) x 19.5mm(H) x max 5.5mm(D) 4. Viewing Aera(W*H) 27.0mm(W) x 10.5mm(H) 5. Dot Size (W*H) 0.45mm(W) x 0.50mm(H) 6.
pc725v0nszxf_j
PC725NSZXF PC725NSZXF PC725NSZXF PC725 DE file PC725 Date Jun. 3. 25 SHARP Corporation PC725NSZXF 2 6 5 2 3 4 Anode Cathode NC Emitter 3 4 5 Collector 6 Base PC725NSZXF PC725YSZXF.6 ±.2.2 ±.3 SHARP "S"
NJU3555 NJU
1/16 LCD NJU6573 NJU6573 16 100 LCD 16 100 1/16 1600 LCD NJU6573 LCD CMOS 16 100 1/5 2MHz Max. CR, 16 V DD = 2.4V3.6V P-Sub LQFP144 20.0mm x 20.0mm t=1.7mm(max) 0.50mm pitch - 1 - NJU3555 NJU6573-2 - NJU3555
0.45m1.00m 1.00m 1.00m 0.33m 0.33m 0.33m 0.45m 1.00m 2
24 11 10 24 12 10 30 1 0.45m1.00m 1.00m 1.00m 0.33m 0.33m 0.33m 0.45m 1.00m 2 23% 29% 71% 67% 6% 4% n=1525 n=1137 6% +6% -4% -2% 21% 30% 5% 35% 6% 6% 11% 40% 37% 36 172 166 371 213 226 177 54 382 704 216
10 117 5 1 121841 4 15 12 7 27 12 6 31856 8 21 1983-2 - 321899 12 21656 2 45 9 2 131816 4 91812 11 20 1887 461971 11 3 2 161703 11 13 98 3 16201700-3 - 2 35 6 7 8 9 12 13 12 481973 12 2 571982 161703 11
SED1353 Technical Manual
SED1353 Series Dot Matrix Graphics LCD Controller MF119-1b 1. 2. 3. 4. 5. 6. MS-DOS Windows Microsoft PC/AT VGA IBM International Business Machines SEIKO EPSON CORPORATION 1997 SED1353 Series Dot Matrix
WJ-HD SHIFT /0 PULL Digital Disk Recorder WJ-HD 316
WJ-HD36 SHIFT 3 4 5 6 7 8 9 0/0 PULL 3 4 5 6 Digital Disk Recorder WJ-HD 36 q w e r t y 3 4 5 6 7 8 9 0 3 4 5 q w 6 q w e r t y 7 SHIFT 3 4 5 6 7 8 9 0/0 HDD HDD 3 4 5 6 8 9 PULL Digital Disk Recorder
AN7551Z
BTL IC (35 W 4-ch) IC GND CR IC GND IC ( V CC GND ASO etc.) (STB-on/off ) (Mute-on/off ) AN7550NZ R1.8±0.1 (10.50) HZIP025-P-0980 Unit : mm 31.0±0.3 27.0±0.3 4.5±0.2 21.0±0.1 1.5±0.1 (10.50) φ3.6±0.1 3.6±0.1
MB (FRONT VIEW) (TOP VIEW) VSA VSB / RESIN VSC VSA OUTC VSB /RESIN GND GND OUTC (DIP-P-M0) (FPT-P-M0) VSC (SIP-P-M0) VSA VSB / RESIN 00 kω 0 kω + + Co
DATA SHEET DS0 00 ASSP BIPOLAR MB MB IC V (VSA =. V ±. ) (VSB =. V ±. ) (+ V ) ( = 0. V ) ( ) (ICC = 0. ma = V) DIP, SIP, SOIP, (DIP-P-M0) (SIP-P-M0) (FPT-P-M0) MB (FRONT VIEW) (TOP VIEW) VSA VSB / RESIN
過電流保護用/突入電流抑制用/過熱検知用"ポジスタ"
r rr r r! r r r r r r r r r r r r r r r r r r r r r r r r r r r r r r r r r r r r r r r r r r r r r r r r r r r r r r r r r r r r r r r r r 9 8 7 9 8 7 6 5 4 6 5 4 3 3-3 4 5 6-3 4 5 6 4 8 6 4 8 6 4-3
¹₄ ³₈ ³₈ ¹₂ ¹₂ ¹₂ ³₄ ³₄
33 4 5 2 63 2 1 3 1 4 2 5 6 19 ¹₄ ³₈ ³₈ ¹₂ ¹₂ ¹₂ ³₄ ³₄ 1 1 5 6 6 7 1 1 1 1 1 1 35 GDC LB 1 1 Y 2 A54 2 1 2 1 1 5 1 1 21 1 2 2 2 53 512 53 53 512 3 12 2 2 4 5 63 1 1 2 4 5 63 1 1 2 45 1 5 2 3 4 4 3 4 4
M51995AP/AFP データシート
お客様各位 カタログ等資料中の旧社名の扱いについて 21 年 4 月 1 日を以って NEC エレクトロニクス株式会社及び株式会社ルネサステクノロジが合併し 両社の全ての事業が当社に承継されております 従いまして 本資料中には旧社名での表記が残っておりますが 当社の資料として有効ですので ご理解の程宜しくお願い申し上げます ルネサスエレクトロニクスホームページ (http://www.renesas.com)
HN58V256Aシリーズ/HN58V257Aシリーズ データシート
HN58V256A HN58V257A 256k EEPROM (32-kword 8-bit) Ready/Busy and RES function (HN58V257A) RJJ03C0132-0600 Rev. 6.00 2007. 05. 24 HN58V256A HN58V257A 32768 8 EEPROM ROM MNOS CMOS 64 3V 2.7 5.5V 120ns (max)
05秋案内.indd
1 2 3 4 5 6 7 R01a U01a Q01a L01a M01b - M03b Y01a R02a U02a Q02a L02a M04b - M06b Y02a R03a U03a Q03a L03a M08a Y03a R04a U04a Q04a L04a M09a Y04a A01a L05b, L07b, R05a U05a Q05a M10a Y05b - Y07b L08b
LT 低コスト、シャットダウン機能付き デュアルおよびトリプル300MHz 電流帰還アンプ
µ µ LT1398/LT1399 V IN A R G 00Ω CHANNEL A SELECT EN A R F 3Ω B C 97.6Ω CABLE V IN B R G 00Ω EN B R F 3Ω 97.6Ω V OUT OUTPUT (00mV/DIV) EN C V IN C 97.6Ω R G 00Ω R F 3Ω 1399 TA01 R F = R G = 30Ω f = 30MHz
LM358
LM358 2 DC LM358 5V DC 15V DC micro SMD (8 micro SMD) LM358 LM2904 LM258 LM158 20000801 19870224 33020 23900 11800 2002 3 ds007787 Converted to nat2000 DTD added avo -23 to the first page Edited for 2001
MSM51V18165F
1 電子デバイス MSM51V1165F 1,04,576-Word 16-Bit DYNAMIC RAM : EDO 機能付き高速ページモード 2000 10 MSM51V1165F CMOS 1,04,576 16 4 2 CMOS 42 SOJ 50/44 TSOP 1,04,576 16 3.3V 0.3V LVTTL LVTTL 1024 /16ms EDO!"# $"# $"# 42 400mil
A Responsive Processor for Parallel/Distributed Real-time Processing
E-mail: yamasaki@{ics.keio.ac.jp, etl.go.jp} http://www.ny.ics.keio.ac.jp etc. CPU) I/O I/O or Home Automation, Factory Automation, (SPARC) (SDRAM I/F, DMAC, PCI, USB, Timers/Counters, SIO, PIO, )
HN58C256A シリーズ/HN58C257A シリーズ データシート
HN58C256A HN58C257A 256k EEPROM (32-kword 8-bit) Ready/Busy and RES function (HN58C257A) RJJ03C0133-0600Z Rev. 6.00 2006. 10. 26 HN58C256A HN58C257A 32768 8 EEPROM ROM MNOS CMOS 64 5V±10% 85ns/100ns (max)
AD5933: 1 MSPS、12 ビット・インピーダンス・コンバータネットワーク・アナライザ
1MSPS 12 AD5933 1kHzto I 2 C 27.1Hz 1Ω 1MΩ 2.5 2.7 5.5V 4125 16SSOP AD5933 1MSPS 12A/D ADC ADC DSPDFT DFTR I 2 1. Tan 1 (I/R) AD5934 2 2 R + I 2.7 5.5V 25kSPS 12 16SSOP MCLK AVDD DVDD DAC R OUT VOUT SCL
Microsoft Word - AK2300-MS0997-J-00_ doc
AK2300 A-Law -law14bitpcm(16bit ) A/D D/A A-law/μ-law GST VFTN VR AMPT AAF SMF A/D CODEC Core D/A PCM I/F DIF0 DIF1 MUTEN DX DR FS BCLK VREF BGREF Internal Main Clock PLLC VDD VSS LVDD Power Down AK2300
MAX191 EV J
-0; Rev ; / µ µ PART TEMP. RANGE BOARD TYPE MAXEVSYS-DIP 0 C to +0 C Through-Hole MAXEVKIT-DIP 0 C to +0 C Through-Hole 0CMODULE-DIP 0 C to +0 C Through-Hole Evaluates: MAX Maxim Integrated Products Evaluates:
LM150/LM350A/LM350 3A 可変型レギュレータ
LM150,LM350,LM350A LM150/LM350A/LM350 3-Amp Adjustable Regulators Literature Number: JAJSBC0 LM350A/LM350 3A LM350 1.2V 33V 3A 3 IC 2 & IC ADJ 6 ADJ LM350 100V ADJ LM350 ADJ 1.2V 3A LM350A 3A LM350 3A
DS90CP04 1.5 Gbps 4x4 LVDS Crosspoint Switch (jp)
1.5 Gbps 4x4 LVDS Crosspoint Switch Literature Number: JAJS984 1.5Gbps 4 4 LVDS 4 4 (LVDS) ( ) 4 4:1 4 1 MODE 4 42.5Gb/s LVDS 20010301 33020 23900 11800 ds200287 2007 12 Removed preliminary. Removed old
64 3 g=9.85 m/s 2 g=9.791 m/s 2 36, km ( ) 1 () 2 () m/s : : a) b) kg/m kg/m k
63 3 Section 3.1 g 3.1 3.1: : 64 3 g=9.85 m/s 2 g=9.791 m/s 2 36, km ( ) 1 () 2 () 3 9.8 m/s 2 3.2 3.2: : a) b) 5 15 4 1 1. 1 3 14. 1 3 kg/m 3 2 3.3 1 3 5.8 1 3 kg/m 3 3 2.65 1 3 kg/m 3 4 6 m 3.1. 65 5
取扱説明書[NE-202]
![取扱説明書[NE-202]](/thumbs/39/20478473.jpg "取扱説明書[NE-202]")
NE-202 13.3 m m 1 2 3 m 4 5 6 7 a a a 8 9 10 11 12 a a a a 13 14 15 16 17 2.4 FH 1/XX 4 18 19 20 21 22 23 24 25 26 27 1 2 3 4 5 6 m 7 h 8 r 9 a P b c d e f g h i j ud k l m n o 28 29 30 31 32 33 34 35
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TB656AFG TB656AFG TB656AFG 2 PWM 2 1-2 2W1-2 4W1-2 1. (1) V DD 4.5~5.5 6 V V MA, V MB 4.5~34 4 V (4.5 = V DD = 5.5, 4.5 = V MA = 34, 4.5 = V MB = 34, V DD = V MA, V DD = V MB ) IC (2) / V DD V MA/B Low
HA178L00 シリーズ
HA178L00 100mA 3 RJJ03D0004-0100Z (Previous: ADJ-204-051A) Rev.1.00 2003.04.11 HA178L00 3 IC IC 150mA () 800mW ±8% A ±5% HA178L00P HA178L00PA HA178L00 HA178L00A HA178L00UA Rev.1.00, 2003.04.11, page 1
NL-06取扱説明書
NL-06 NL-06 NL-06 3 NL-06 NL-06 i ii -10 +50 30 90%RH 3 iii ... 1... 3... 3... 4... 5... 8... 9... 10... 11... 11... 12 WS-02... 14... 14... 15 EC-04... 16 CP-11 CP-10... 18 LR-06 LR-07 LR-04... 20...