筆記体変換

Display text with cursive style.

Save text into log

Satsuki

Bookmark[1] Merry ChristmasMerry Christmas
Bookmark[2] This is for youThis is for you
Bookmark[3] Happy BirthdayHappy Birthday
Bookmark[4] Happy New YearHappy New Year
Bookmark[5] You are my ValentineYou are my Valentine
Bookmark[6] Be my ValentineBe my Valentine
2024-04-15JST11:24:40 cables in a frequency range up to 30 MHzcables in a frequency range up to 30 MHz
2024-04-15JST11:24:40 kurumikurumi
2024-04-15JST11:23:37 cables in a frequency range up to 30 MHzcables in a frequency range up to 30 MHz
2024-04-15JST11:23:27 Finished Proceed toFinished Proceed to
2024-04-15JST11:23:14 wafflewaffle
2024-04-15JST11:22:54 NoonNoon
2024-04-15JST11:22:26 Haruki.fHaruki.f
2024-04-15JST11:22:26 Haruki.fHaruki.f
2024-04-15JST11:22:26 Haruki.fHaruki.f
2024-04-15JST11:22:25 Haruki.fHaruki.f
2024-04-15JST11:22:02 Mitsuki KodaMitsuki Koda
2024-04-15JST11:21:12 YuzunaYuzuna
2024-04-15JST11:21:02 YuzunaYuzuna
2024-04-15JST11:19:35 use high-voltageuse high-voltage
2024-04-15JST11:19:24 AyumuAyumu
2024-04-15JST11:18:56 MISAMISA
2024-04-15JST11:18:31 DaichiDaichi
2024-04-15JST11:17:56 だいちだいち
2024-04-15JST11:17:39 だいちだいち
2024-04-15JST11:17:24 systemssystems
2024-04-15JST11:17:20 AyumuAyumu
2024-04-15JST11:17:20 AyumuAyumu
2024-04-15JST11:17:09 AYUMUAYUMU
2024-04-15JST11:16:33 ayumuayumu
2024-04-15JST11:16:23 あゆむあゆむ
2024-04-15JST11:16:22 あゆむあゆむ
2024-04-15JST11:16:19 PLCPLC
2024-04-15JST11:14:42  With o=10-3 S/m, attenuation is caused by radial charging and discharging of the semiconducting layers. Axial current propagation along the layers dominates losses at o= 103 S/m. With o=10-3 S/m, attenuation is caused by radial charging and discharging of the semiconducting layers. Axial current propagation along the layers dominates losses at o= 103 S/m.
2024-04-15JST11:14:16 trombonetrombone
2024-04-15JST11:13:53 もしやあれはヅカチンポだったか!?もしやあれはヅカチンポだったか!?
2024-04-15JST11:13:25 communicationcommunication
2024-04-15JST11:12:50 SexSex
2024-04-15JST11:12:15 UnkoUnko
2024-04-15JST11:11:48 SineSine
2024-04-15JST11:10:56 reinettereinette
2024-04-15JST11:09:28 Kazuo IkomaKazuo Ikoma
2024-04-15JST11:07:12 SakutoSakuto
2024-04-15JST11:06:24 keitakeita
2024-04-15JST11:06:06 Kjdgihogusikl;hjiguskldhjypoghtilyuiiuwytigiuklg;yhuiyo8ekiKjdgihogusikl;hjiguskldhjypoghtilyuiiuwytigiuklg;yhuiyo8eki
2024-04-15JST11:04:47 YumaYuma
2024-04-15JST11:03:59 Fuck youFuck you
2024-04-15JST11:02:10 YumaYuma
2024-04-15JST11:01:58 ユウマユウマ
2024-04-15JST11:00:29 method. The PLC signal suffers significant attenuation for two different values of layer conductivity o.method. The PLC signal suffers significant attenuation for two different values of layer conductivity o.
2024-04-15JST10:59:24 TokinaTokina
2024-04-15JST10:59:17 hayatehayate
2024-04-15JST10:58:25 Anna OtaAnna Ota
2024-04-15JST10:58:05 friendfriend
2024-04-15JST10:56:51 LoveLove
2024-04-15JST10:54:20 ShirakuraShirakura
2024-04-15JST10:52:34 Power-line-communication(PLC) systems use high-voltage cables in a frequency range up to 30 MHz. Since the cacles are not designed for this duty.there can be significant signal attenuation abd distortion.We have computed the propagation characteristics of a typical PLC signal along a sigle—core cable having two, 3-mm thicksemiconducting layers,using the finite-difference time-domain (FDTD) method. The PLC signal suffers significant attenuation for two different values of layer conductivity δ. With δ=10^-3S/m, attenuation is cause by radial charging and discharing of the semiconducting layers. Axial current propagation along the layers dominates losses at δ=10^3S/m.Power-line-communication(PLC) systems use high-voltage cables in a frequency range up to 30 MHz. Since the cacles are not designed for this duty.there can be significant signal attenuation abd distortion.We have computed the propagation characteristics of a typical PLC signal along a sigle—core cable having two, 3-mm thicksemiconducting layers,using the finite-difference time-domain (FDTD) method. The PLC signal suffers significant attenuation for two different values of layer conductivity δ. With δ=10^-3S/m, attenuation is cause by radial charging and discharing of the semiconducting layers. Axial current propagation along the layers dominates losses at δ=10^3S/m.
2024-04-15JST10:44:07 We have computed the propagation characteristics of a typical PLC signal along a single-core cable having two, 3-mm thick semiconducting layers, using the finite-difference time-domain (FDTD) method.We have computed the propagation characteristics of a typical PLC signal along a single-core cable having two, 3-mm thick semiconducting layers, using the finite-difference time-domain (FDTD) method.

hikkitai.com uses Web Fonts function. Please access with WWW browser of version more than Internet Explorer4, Firefox3.5, Safari3.1, Opera10.
(c)http://www.bvfonts.com