加速度传感器 MA 运动传感器红外线阵列传感器压力传感器
机器用传感器 松下电器的机器用传感器为节能 安全 舒适做出贡献 在各个生活场景中提供传感器 空调 Grid-EYE 人体检测 门灯的ON/OFF Grid-EYE 人体检测 血压计 压力传感器 压力检测 周围明亮时 熄灯 周围变暗时发 出微弱灯光 有人靠近时 Grid-EYE 进行检 测 1%亮灯 人不在时 再次 发出微弱灯光 安防摄像头 Grid-EYE 人体检测 车库灯的ON/OFF Grid-EYE 人体检测 WD-ABS控制 单轴加速度传感器 加速度检测 入座检测 座盖开关 洗衣机的水位检测 微波炉 MA 运动 位置检测 PS-A 微压型 水位检测 Grid-EYE 温度检测 人体 温度 加速度 加速度传感器 1軸GF1 红外线阵列传感器 Grid-EYE 本公司在更改设计 规格时可能不予事先通知 敬请谅解 请务必在购买及使用本公司产品前向本公司索要相关技术规格书 如对产品的安全性有疑义时 请速与本公司联系 1 Apr. 217
MA Grid-EYE MA Grid-EYE MA MA MA MA Grid-EYE MA Grid-EYE MA MA Grid-EYE MA 1 Apr. 217
5cm ~ 2cm 5cm ~ 2cm Apr. 217 1
Grid-EYE. V.DC 5. V.DC ±1, 1, 25, 5, 1, 2, 5, 1, kpa mm 5mm 6kPa 5mm mm 1.5mm 5.5mm.9,., 9., 98.1, 196.1,.2, 9., 8.6, 98.7 kpa 5kΩ kpa 98.1, 98.7kPa (PS).kΩ 1 Apr. 217
AGF 1 1.16 V/(m/s 2 ) {1. V/g} 1 7.6 V/(m/s 2 ) {. V/g} 1 1 5 V.DC 2 12 V.DC 2 V.DC 1 5 V.DC ±11.76 m/s 2 (±1.2 g).16 V/(m/s 2 ) (1. V/g) AGF1111 ±.9 m/s 2 (±.5g).6 V/(m/s 2 ) (. V/g) AGF1711 12 V.DC ±11.76 m/s 2 (±1.2 g).16 V/(m/s 2 ) (1. V/g) AGF121 ±.9 m/s 2 (±.5g).6 V/(m/s 2 ) (. V/g) AGF1721 2 V.DC ±11.76 m/s 2 (±1.2 g).16 V/(m/s 2 ) (1. V/g) AGF11 ±.9 m/s 2 (±.5g).6 V/(m/s 2 ) (. V/g) AGF171 AGF1 11 AGF1 21 AGF1 1 5 V.DC 12 V.DC 2 V.DC V.DC 5 V.DC 12 V.DC 2 V.DC Max. Ta=25 C AGF1 1 15 Max. g AGF1 7 1 5 Max. C ~ 85 C ~ 85 g 5, Max. IP67 Jan. 216
AGF1 11 AGF1 21 AGF1 1 5 V.DC 12 V.DC 2 V.DC V.DC 5 V.DC±5 % 12 V.DC±1 % 2 V.DC±1 % C ~ +85 C g ±1.2 ( ) (9) ma 1 15 g, Ta=2 C, Max. V/g 1.± % C ~ +85 C (g) V ±.1 Ta=2 C V ±.9 C ~ +85 C % ±5 Ta=2 C %FS ±1 Ta=2 C Hz 1~15 db point V.5 Typ. V.5 Typ. AGF1 11 AGF1 21 AGF1 1 5 V.DC 12 V.DC 2 V.DC V.DC 5 V.DC±5 % 12 V.DC±1 % 2 V.DC±1 % C ~ +85 C g ±.5 ( ) () ma 1 15 g, Ta=2 C, Max. V/g.± % C ~ +85 C (g) V ±.1 Ta=2 C V ±.21 C ~ +85 C % ±5 Ta=2 C %FS ±1 Ta=2 C Hz 1~15 db point V.5 Typ. V.5 Typ. 1. [g] 9.8 m/s 2 2. +1.2 g 1.2 g (AGF1 1) +.5 g.5 g (AGF1 7 1). 12 V.DC/2 V.DC Jan. 216
(mg) (G)5..5..5. (V) 2. 1.5 1..5 5 75 AGF1111 AGF1711 6 2 2 6 8 1. 2. 1.5 1..5..5 1. 1.5 2.. 1 8 25 12 ( ) 1 75 2 5 6 25 8 (db) 1 1 2 2 6 8 1 ( C) (V)5..5..5. 2. 1.5 1..5 AGF1111 AGF1711 1 16 18 2 1 1 6 1 (Hz) 5 2 1 (%) 1 2 5 2 2 6 8 1 ( C) Jan. 216
AGF1 1 58 ±.5 2-f7 6.5 28 6 GND Vout VDD AGF11 1 f6.5 85 61.8 AGF1111 161 JAPAN 28 7 GND Vout VDD VDD VDD Vout Sensor Output GND RL RL=(Min.5 kω) Jan. 216
Jan. 216
AM A BA 1 2 2 5 6 7 1 8 9 1 5 6 2 9 11 12 1 1 15 16 17 18 19 5 cm AMA1595 AMA11595 1 cm AMA159 AMA1159.5 V.DC ~ 5.5 V.DC 15 cm AMA15915 AMA115915 5 cm AMA1695 AMA11695 1 cm AMA169 AMA1169 15 cm AMA16915 AMA116915 2 5 cm 1 cm 15 cm 5 cm 6 cm 7 cm 8 cm 9 cm 1 cm 2 cm cm cm 5 cm 6 cm 7 cm 8 cm cm cm 5 cm 6 cm 7 cm 8 cm 9 cm 1 cm 11 cm 12 cm 1 cm 1 cm 15 cm 16 cm 17 cm 18 cm 19 cm 2 cm Jan. 216
.5 V.DC ~ 5.5 V.DC 5.5 V.DC ~ 27 V.DC 5 cm AMBA195 AMBA1195 6 cm AMBA196 AMBA1196 7 cm AMBA197 AMBA1197 8 cm AMBA198 AMBA1198 9 cm AMBA199 AMBA1199 1 cm AMBA19 AMBA119 5 cm AMBA125 AMBA1125 6 cm AMBA126 AMBA1126 7 cm AMBA127 AMBA1127 8 cm AMBA128 AMBA1128 9 cm AMBA129 AMBA1129 1 cm AMBA12 AMBA112.5 V.DC ~ 5.5 V.DC 5.5 V.DC ~ 27 V.DC 2 cm AMBA292 AMBA2192 cm AMBA29 AMBA219 cm AMBA29 AMBA219 5 cm AMBA295 AMBA2195 6 cm AMBA296 AMBA2196 7 cm AMBA297 AMBA2197 8 cm AMBA29 AMBA219 2 cm AMBA222 AMBA2122 cm AMBA22 AMBA212 cm AMBA22 AMBA212 5 cm AMBA225 AMBA2125 6 cm AMBA226 AMBA2126 7 cm AMBA227 AMBA2127 8 cm AMBA22 AMBA212 Jan. 216
.5 V.DC ~ 5.5 V.DC 5.5 V.DC ~ 27 V.DC cm AMBA9 AMBA19 AMBA59 AMBA159 cm AMBA9 AMBA19 AMBA59 AMBA159 5 cm AMBA95 AMBA195 AMBA595 AMBA1595 6 cm AMBA96 AMBA196 AMBA596 AMBA1596 7 cm AMBA97 AMBA197 AMBA597 AMBA1597 8 cm AMBA98 AMBA198 AMBA598 AMBA1598 9 cm AMBA99 AMBA199 AMBA599 AMBA1599 1 cm AMBA91 AMBA191 AMBA591 AMBA1591 11 cm AMBA911 AMBA1911 AMBA5911 AMBA15911 12 cm AMBA912 AMBA1912 AMBA5912 AMBA15912 1 cm AMBA91 AMBA191 AMBA591 AMBA1591 1 cm AMBA91 AMBA191 AMBA591 AMBA1591 15 cm AMBA915 AMBA1915 AMBA5915 AMBA15915 16 cm AMBA916 AMBA1916 AMBA5916 AMBA15916 17 cm AMBA917 AMBA1917 AMBA5917 AMBA15917 18 cm AMBA918 AMBA1918 AMBA5918 AMBA15918 19 cm AMBA919 AMBA1919 AMBA5919 AMBA15919 2 cm AMBA9 AMBA19 AMBA59 AMBA159 cm AMBA2 AMBA12 AMBA52 AMBA152 cm AMBA2 AMBA12 AMBA52 AMBA152 5 cm AMBA25 AMBA125 AMBA525 AMBA1525 6 cm AMBA26 AMBA126 AMBA526 AMBA1526 7 cm AMBA27 AMBA127 AMBA527 AMBA1527 8 cm AMBA28 AMBA128 AMBA528 AMBA1528 9 cm AMBA29 AMBA129 AMBA529 AMBA1529 1 cm AMBA21 AMBA121 AMBA521 AMBA1521 11 cm AMBA211 AMBA1211 AMBA5211 AMBA15211 12 cm AMBA212 AMBA1212 AMBA5212 AMBA15212 1 cm AMBA21 AMBA121 AMBA521 AMBA1521 1 cm AMBA21 AMBA121 AMBA521 AMBA1521 15 cm AMBA215 AMBA1215 AMBA5215 AMBA15215 16 cm AMBA216 AMBA1216 AMBA5216 AMBA15216 17 cm AMBA217 AMBA1217 AMBA5217 AMBA15217 18 cm AMBA218 AMBA1218 AMBA5218 AMBA15218 19 cm AMBA219 AMBA1219 AMBA5219 AMBA15219 2 cm AMBA2 AMBA12 AMBA52 AMBA152 cm 5 1 15 5 9 15 mm 5 1 15 1 55 11 165 % 1 25 5 9 % ~ 18 %, lx 2 2, Jan. 216
1 cm 5 6 7 8 9 1 5 5 6 72 81 9 mm 5 6 7 8 9 1 55 66 77 88 99 11 % 1 15 2 25 9 % ~ 18 %, lx 2 2, 1 cm 2 5 6 7 8 19 285 8 75 57 665 76 mm 2 5 6 7 8 21 15 2 525 6 75 8 % 5 1 9 % ~ 18 %, lx 2 2, cm 5 6 7 8 9 1 1 285 8 75 57 665 76 855 95 15 mm 5 6 7 8 9 1 11 15 2 525 6 75 8 95 15 1155 % 5 9 % ~ 18 %, lx 2, cm 12 1 1 15 16 17 18 19 2 11 125 1 125 152 1615 171 185 19 mm 12 1 1 15 16 17 18 19 2 126 165 17 1575 168 1785 189 1995 21 % 5 1 15 9 % ~ 18 %, lx 2, Jan. 216
μ 5 V.DC.5 V.DC 5.5 V.DC VDD 5 V.DC 5.5 V.DC 27 V.DC Ib.1 ma 5 V.DC.1 ma 1. ma. ma 5 V.DC. ma 1.8 ma 2 b Id 2.6 ma 6.7 ma 5 V.DC.5 ma 1. ma 6.6 ma 9.6 ma 5 V.DC. ma.5 ma 2 d Ia 2.2 ma 5 V.DC 2.2 ma.1 ma 6.2 ma 5 V.DC 6.2 ma 7.2 ma 2 a Ic.2 ma 8.5 ma 5 V.DC 2. ma. ma 8.2 ma 1 ma 5 V.DC 8.2 ma 9. ma 2 c Tt 5 ms/ 2 μs Tw 1/2 Tt V TL.8 V V TH V Tr 5 ms Vr 1 V.DC 1.2 V.DC 1 V.DC It=1 ma II 5 μa μa V= V.DC a b c OFF Tr OFF ON d Tr ON Tr OFF Tr ON Tr OFF Tr GND Tr ON ON OFF OFF Tr OFF Tr ON ON OFF Jan. 216
ON OFF Tt : Min. 5ms Tr : Max. 5ms Tr VTH VTL OFF ON VTH VTL Tw ON OFF OFF ON Tr ON OFF + μf + + μf + 2 2 1 N.C. Tr 1 2 1 1 GND GND + μf + + μf + 2 2 1 N.C. Tr 1 2 1 1 GND GND μ Jan. 216
(mm) 1 9 8 7 6 5 2 1 2 1 1 2 W (mm) AMA1 AMBA1 AMBA2 AMBA (mm) 1 9 8 7 6 5 2 1 2 2 mm 9 % Y X 1 cm 9 cm 8 cm 7 cm 6 cm 5 cm (mm) 8 7 6 5 2 1 2 2 mm 9 % Y X 8 cm 7 cm 6 cm 5 cm cm cm 2 cm (mm) 2 175 15 125 1 75 5 25 5 5 mm 9 % Y X 2 cm 15 cm 1 cm 5 cm 2 1 1 2 W (mm) 2 1 1 2 W (mm) 2 1 1 2 W (mm) 2-R.25 6.5 16 f 6.6 29. 2. 12.7 1. 1 11 16.25 6 11. Max.. mm 2 2 19.5 22 f.1 19.5 1.2 5 1 2.1 29.5. Jan. 216
f.2 1 2.7 1 2 f.2 7 6 6 55 65 7 2 29.7 Max.1 29.7 Max. 1 21 BMB-SRSS 1. 2... 2 1 DF1-P-1.25DS(2).. 2. 1. 2 1 DF1-P-1.25DSA.. 2. 1. 2 1 DF1-P-1.25DSA.. 2. 1. 2 1 DF1-P-1.25DSA.. 2. 1. AMV9 AWG 28 1. 2....5±1 6.65 15±5 DF1-S-1.25C AMV92 UL 168, AWG 5 1. 2... 5 15±5.5±2 SHR-V-S Jan. 216
μ 5 cm 8 cm 1 cm 2 cm X Y Z (%RH) 25 85 15 75 ( C) μ Jan. 216
Jan. 216
AMG 8 8 8 8 8 8. V.DC 5 5. V.DC Grid-EYE 6 8 8. V.DC 5. V.DC AMG88 AMG88 AMG885 AMG885. V.DC±. V.DC5. V.DC±.5 V.DC C ~ 8 C 2 C ~ 1 C C ~ 8 C 2 C ~ 8 C 2 C ~ 8 C 2 C ~ 8 C 2 Apr. 217
. V.DC ~ 6.5 V.DC VDD. V.DC ~ VDD +. V.DC SCL, SDA, AD_SELECT 1 ma ~ 1 ma INT, SDA 1 kv 2 V Typ.± C Typ.±. C 7 m Typ..5 C 1 Hz NETD Typ..16 C 1 Hz Typ.6 Typ.±5.6 Typ..5 ma Typ..2 ma Typ..8 ma Typ.5 ms Typ.15 s 1 2 6 8 8 I 2 Cfast mode Typ. 1 1 1 s 6 s.25 C 2I 2 C 2 C ~ 8 C.625 C 1. V.DC 5 V.DC 1 μf VDD GND 9 6 Selector Gain amp ADC ROM Control I 2 C I/F 2 5 SDA SCL AD_SELECT INT GND Thermistor 2 Apr. 217
6 6 62 61 6 59 58 57 56 55 5 5 52 51 5 9 8 7 6 5 2 1 9 8 7 6 5 2 1 29 28 27 26 25 2 2 22 21 2 19 18 17 16 15 1 1 12 11 1 9 8 7 6 5 2 1 6 6 ( ) ( ) 2 1 2 1 1 1 2 ( ) 25 29 7 1 5 9 5 57 612 15 1 5 1 5 9 1 17 21 ( ) 25 29 7 1 5 9 5 57 612 15 1 5 1 5 9 1 17 21 2. 8. 1.5 N P 51 8.9 2. 2.6 8 1 7 11.6 5. 1 NC 2 SDA SCL INT 5 AD_SELECT 6 GND 7 NC 8 NC 9 VDD J AVDD-PC K NC L DVDD-PC M VPP N NC 9 M (.75).6 11.±.5.5 8.7 -.8 1-.7 P1.27±.5 =5.8 1-.5 1 7 7.8 1-2.. N 8 P1.27 1.9 2 Apr. 217
VDD VDD 1 kω±5% 1 kω±5% 1 kω±5% 1 kω±5% 1 kω±5% 1 kω±5% 1 kω±5% 2SDA SCL INT 5AD_SELECT 6GND MVPP LDVDD-PC JAVDD-PC 9VDD 2SDA SCL INT 5AD_SELECT 6GND MVPP LDVDD-PC JAVDD-PC 9VDD GND 1 μf±2% 2 Ω±5% 1 μf±1% 1.5 μf±1% GND 1 μf±2% 2 Ω±5% 1 μf±1% 1.5 μf±1% 12.6±.1 16.±. 7.5±.1 1.75±.1 f1.5 +.1 2.±.1.±.1 16.±.1.5±.5 f1.5 +.1 f1±.2 17.5±1. 21.5±1. f8.±1. f8.±2. 9.±.1.7±.1 2 Apr. 217
(%RH) (%RH) 2 85 15 8 ( C) 2 85 15 8 ( C) T T2 T1 t1 t2 2 Apr. 217
2 Apr. 217
ADP5 1 2 1 ±1 kpa 1 kpa 2 5 6 25 kpa 5 kpa 1 kpa 2 kpa 5 kpa 7 1, kpa A kpa B6 6 kpa mm mm 1 1 5 mm mm 2 1.5 mm 5.5 mm 1.6 mm 5.5 mm ( mm) (5 mm) (5 mm) (1.5 mm) (15.6 mm) ±1 kpa ADP51 ADP52 ADP511 ADP521 1 kpa ADP511 ADP521 ADP5111 ADP5211 25 kpa ADP512 ADP5121 5 kpa ADP51 ADP511 1 kpa ADP51 ADP52 ADP511 ADP521 2 kpa ADP515 ADP525 ADP5151 ADP5251 5 kpa ADP516 ADP526 ADP5161 ADP5261 1, kpa ADP517 ADP527 ADP5171 ADP5271 kpa ADP51A11 6 kpa ADP51B61 ADP51B62 ADP51B6 1 Mar. 216
1 kpa ±1 1 25 5 1 2 5 1, 1 C ~ +6 C 2 C ~ +85 C 5±.25 V.DC C ~ 5 C ±.5.5±.5 V 2,, 5.5±.5 (+1 kpa ).5±.5 V 2,, 5 ±1.25 %FS,, 5 1 ma 2, 15 Ω (Typ.) 2.2 ma 2, 2 ma 2, 1 kpa 5 C ~ +5 C 2 C ~ +7 C ±.15 V.DC 5 C ~ 5 C.±.9 V 2,, 5 2.±. V 2,, 5 ±. %FS,, 5 1. %FS,, 5 ma 2 2 Ω (Typ.) 2,.15 ma 2, 1.5 ma 2, 1 Mar. 216
( C)( C) 1 kpa 6 C ~ +7 C C ~ +1 C 5±.25 V.DC C ~ 7 C.5 V (Typ.) 2. V (Typ.) 2 ± %FS 2,, 1 ma 5 Ω (Typ.).2 ma 2. ma 5 1.25 1. 1.25 1..75.75 (V) 2 1 5 (kpa) 1.5.25. (%FS).25.5.75 1. 1.25 25 5.5.25 ( C). (%FS).25.5.75 1. 1.25 25 5 5 1.25 1. 1.25 1..75.75 (V) (kpa) 2 1 1 1.5.25. (%FS).25.5.75 1. 1.25 25 5.5.25 ( C). (%FS).25.5.75 1. 1.25 25 5 1 Mar. 216
. ( C) ( C)after testintial after testintial after testintial after test 5. 1..5 (V). 6... 2. 1... (kpa).8.6. (V).2 intial 1h 5h..1.9 (V).7.5intial 1h 5h 1..5.8..6.1 (V). (V).9.2.7. 25 1 6 7.5 25 1 6 7 1..5.8..6 (V)..1.9 (V).2.7. intial.5 1..5.8..6.1 (V). (V).9.2.7..5 1 Mar. 216
intial 1 cyc Temp. 65 C 25 C Time 95% RH 1 cycle (2h) 65 C 1 C % RH 25 C h h h h h h 1.5h.5h h 1..8.6. (V).2..5..1.9 (V).7.5 intial 1 cyc 85 C 1 2 C 1 C9 %RH 1 2 C ~ 85 C1 1 C9%RH 1 1.5 mm 1 ~ 55 Hz XYZ 2 75cm 2 9.8 N1.9N +9 1 2 C 5 26 C 1 1 Mar. 216
ADP51 Vcc NU Vout 7.Max. 7.2Max. f2.2 6-f.9 Vcc (DC 5V) Vout GND NU NU -R.7 7.5 C f. R.2 GND 1.8 6.5..5 9.5 GND NU NU JAPAN Vcc NU Vout 7. 7.2.25 1 Vcc 2 NC (Not connection) Vout NC (Not connection) 5 NC (Not connection) 6 GND ADP52 Vcc NU Vout 7.Max. 7.2Max. f2.2 1.1 Vcc (DC 5V) Vout GND NU NU f. -R.7 R.2 1.9 9.5 C 6.5.15 1.8 GND.25..5 1..5 GND NU NU JAPAN Vcc NUVout 7. 7.2 1 Vcc 2 NC (Not connection) Vout NC (Not connection) 5 NC (Not connection) 6 GND 1 Mar. 216
ADP51 1/ADP51A11 Vcc NU Vout 7.Max. 7.2Max. f2.2 6-f.9 Vcc (DC 5V) Vout GND NU NU f. -R.7 R.2 7.5 C GND 8.5 5. 1.8.5 9.5 GND NU NU JAPAN Vcc NU Vout 7. 7.2.25 1 Vcc 2 NC (Not connection) Vout NC (Not connection) 5 NC (Not connection) 6 GND ADP52 1 f2.2 Vcc NC Vout 7.Max. 7.2Max. 1.1 Vcc (DC 5V) Vout GNDNC NC f. -R.7 R.2 1.9 9.5 C 8.5 5..15 GND 1.8.25.5 GND NC NC JAPAN Vcc NC Vout 7.2 1..5 1 Vcc 2 NC (Not connection) Vout NC (Not connection) 5 NC (Not connection) 6 GND 7. 1 Mar. 216
ADP51B61 P =7.62 1. P =7.62 8 7 6 5 P/N,Lot 1. 1B61 712 JAPAN 1.7 R.5 1. f. 5. 8-f1.2 1.97 1 2.1 μf 1. μf.25 2.7 NU VccGndVout NU NU NU NU.76 1 NC (Not connection) 2 Vcc GND Vout 5 NC (Not connection) 6 NC (Not connection) 7 NC (Not connection) 8 NC (Not connection) ADP51B62 P =7.62 1. P =7.62 8 7 6 5 1. R.5 1. f5.5 8-f1.2 1.97 1 2 P/N,Lot 19. C. (1.5).1 μf 1. μf 1B61.25 712 JAPAN 2.7 NU VccGndVout NU NU NU NU.76 1 NC (Not connection) 2 Vcc GND Vout 5 NC (Not connection) 6 NC (Not connection) 7 NC (Not connection) 8 NC (Not connection) ADP51B6 P =7.62 1. P =7.62 8765 1. 1. f5.5 8-f1.2 1.97 12 P/N, Lot 2.2 f. 5.6 15.6.1 μf 1. μf.25 1B6 12215 JAPAN. NUVccGndVout NUNU NUNU.76 1 NC (Not connection) 2 Vcc GND Vout 5 NC (Not connection) 6 NC (Not connection) 7 NC (Not connection) 8 NC (Not connection) 1 Mar. 216
2 C 15 C 6 1 μ 1 Mar. 216
1 Mar. 216
ADP 1 1 2.9 kpa 2. kpa 9. kpa 98.1 kpa 5 196.1 kpa 6.2 kpa 7 9. kpa 8 8.6 kpa 9 98.7 kpa A. kpa 1 2 PF 5 kω PS 5 kω. kω 5 kω. kω 5 kω. kω.9kpa ADP11 ADP21 ADP111 ADP121.kPa ADP121 ADP221 ADP1121 ADP1221 9.kPa ADP11 ADP21 ADP111 ADP121 98.1kPa ADP11 ADP21 ADP92 ADP11 ADP21 ADP111 ADP121 196.1kPa ADP151 ADP251 ADP1151 ADP1251.2kPa ADP161 ADP261 ADP1161 ADP1261 9.kPa ADP171 ADP271 ADP1171 ADP1271 8.6kPa ADP181 ADP281 ADP1181 ADP1281 98.7kPa ADP191 ADP291 ADP9 ADP191 ADP291 ADP1191 ADP1291.kPa ADP1A2 ADP2A2 ADP11A2 ADP12A2 Jan. 216
2 kpa.9. ~.2 9. 8.6 98.7 98.1 98.7. 5, Ω ±1, Ω, Ω ±7 Ω, Ω ±6 Ω 2 C ~ +1 C 5 C ~ +5 C C ~ +12 C 2 C ~ +7 C 25 C C 25 C C ~ 5 C C ~ 6 C 5 C ~ 5 C 1.5 ma.dc 1. ma.dc 1.5 ma.dc ±2 mv 1± mv 65±25 mv.5±2 mv ±2 mv ±15 mv ±.7 %FS ±. %FS ±.5 %FS ±.6 %FS ±1. %FS ±. %FS ±.6 %FS ±.2 %FS ±. %FS ±1. %FS ±.7 %FS ±15 %FS ±5. %FS ±.5 %FS ±1 %FS ±1 %FS ± %FS ±1. %FS 6 (mv) 2 5 2 (%FS)(%FS)2 1 1 1 1 1 2 2 98.7/2{5} 98.7{1} 6 (kpa{kgf/cm 2 }) ( C) 2 (%FS)2 1 1 (%FS)1 1 2 2 6 ( C) 5, (cycle) 1,, 5, (cycle) 1,, Jan. 216
(mv)(%fs)1 8 6 2 2 2 1 1 9{.5} 98.1{1} (kpa{kgf/cm 2 }) (%FS) (%FS) 2 (%FS) 2 2 1 1-1 1-2 25 5 ( C) 2 1 1 2 6 ( C) 2 1 1 5 5 1 5 1 1 6 (cycle) 1 1 5 5 1 5 1 1 6 (cycle) 12 C 1, C 1, C, 9 %RH 1, C ~ 12 C 1 C, 9 %RH 1 1.5 mm 1 ~ 55 Hz X, Y, Z 2 75 cm 2 9.8 N, 1.9 N, +9, 1 2 C 5 26 C 1 Jan. 216
ADP1 f1.1 7.2 f 7.2 f R.2 8.2 Max 6-f.9 7.5 +Input 2 +Output R2 R1 1 Input R R 6 NC 5 Output JAPAN 5.5 1 2 6 5.6.5.25 9.5 1 +Input 2 +Out Input Input 5 Out 6 NC ADP2 f1.1.7 7.2 7.2 f 1 2 6 5 7.2 JAPAN.5 7.2 5.5.25 9.5 f 8.2 Max ADP92, ADP9 f1.1 R.2 f5 1.1 6-f.9 7.5 +Input 1 R2 R 2 +Output R1 Input R 6 NC 5 Output 1 +Input 2 +Out Input Input 5 Out 6 NC 2 +Output R2 R1 f. f. 5. 8.5 R.5 1.9 9.5 +Input 1 R Input R 6 NC 5 Output 1 2 6 5 JAPAN.5 1..15.5 1 +Input 2 +Out Input Input 5 Out 6 NC Jan. 216
ADP11 ( ) 1 f.8 6-f.9 +Input 2 f 8.6 1.16 C.5 1.16 +Output R2 R R1 R 1 6 Output 1.1.6.5 1.2 6 5.9. 6.25 R.5 ~ 15 5.8 ±.1 5 Input 1 Out 2 +Input +Out NC 5 Input 6 Out JAPAN 1 2 ADP12 ( ) 1 f.8 6-f.9 +Input 2 R2 R1 8.6 f6 1.16 +Output 1 Output 6 R R.6.25 1.2.5 6 5 6..25 R.5 1.16 f C.5 ~ 15 5.8 ±.1 5 Input 1 Out 2 +Input +Out NC 5 Input 6 Out JAPAN 1 2 Jan. 216
2 C 15 C 6 1 OP AMP OP AMP OP AMP (.9k Pa98.1 kpa) (196.1 kpa98.7 kpa) Jan. 216
ΔΔ Δ2 Δ1 FS2 Ω Ω Ω Ω FS1 FS R2 R1 D2 1/2 D1 FS R R Jan. 216
Mar. 216
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