ROHM TLR728G-LB Noise Rail zuwa Rail Input da Fitar Babban Gudun CMOS Amplififi

Ƙayyadaddun samfur

• Sunan samfur: ROHM Solution Simulator
• Siffofin: Offersarancin Kashewa & Low Hoise Input / fitarwa High Sport CMS CMOs Ampmasu rayarwa

Umarnin Amfani da samfur

Simulators Schematic
Figure 1 shows the simulation schematic for the frequency response with an Op-Amp a matsayin mara juyowa ampmai sanyaya wuta.

Yadda ake Kwaikwaya
The simulation settings can be configured in the ‘Simulation Settings’ menu as shown in Figure 2. Table 1 displays the default setup of the simulation.
Saitunan kwaikwayo

• Nau'in kwaikwayo: Mitar-Yanki
• Start Frequency – End Frequency: 0 Hz - 100 MHz
• Babban Zaɓuɓɓuka: Simulation Resolution, Convergence Assist
• Zaɓuɓɓukan hannu: .zazzabi 27

Sharuɗɗan kwaikwayo
Table 2 lists the simulation condition parameters, including instance name, type, and parameters for voltage sources and the Op-Amp.

Op-Amp Samfura
Tebur 3 yana nuna ayyukan fil ɗin samfurin don Op-Amp kwaikwayo, ƙayyadaddun halayen shigarwa/fitarwa.

Abubuwan da ke Wuta

Bill of Materials
Table 4 lists the components used in the simulation schematic, including resistors and capacitors with their default values and variable ranges.

Matsalolin Capacitor daidai
Figure 3 illustrates the capacitor property editor and equivalent circuit, noting that the default value of ESR is 2m.

GABATARWA

• Wannan da'irar tana kwatanta amsawar mitar tare da Op-Amp a matsayin mara juyowa amplififi. Kuna iya lura da ribar AC da lokacin rabon fitarwa zuwa shigar voltage lokacin da tushen shigarwa voltage AC frequency is changed. You can customize the parameters of the components shown in blue, such as VSOURCE or peripheral components, and simulate the non-inverting amplifier tare da yanayin aiki da ake so.
• In the published application note, you can simulate the circuit: Operational amplifier, Kwatanta (Tutorial). [JP] [EN] [CN] [KR]

Gabaɗaya Tsanaki

• Tsanaki 1: Ba a da garantin ƙima daga sakamakon simintin. Da fatan za a yi amfani da waɗannan sakamakon azaman jagora don ƙirar ku.
• Tsanaki 2: Waɗannan halayen ƙirar suna musamman a Ta=25°C. Don haka, sakamakon kwaikwayo tare da bambance-bambancen zafin jiki na iya bambanta sosai da sakamakon tare da wanda aka yi a ainihin allon aikace-aikacen (auni na ainihi).
• Tsanaki 3: Da fatan za a koma zuwa Bayanan Bayanin Aikace-aikacen Op-Amps don cikakkun bayanai na bayanan fasaha.
• Tsanaki 4: Halayen na iya canzawa dangane da ainihin ƙirar allo, kuma ROHM yana ba da shawarar sosai don bincika waɗannan halaye tare da ainihin allon inda za a ɗora kwakwalwan kwamfuta.

Simulators Schematic

Yadda ake kwaikwaya

• Saitunan simulation, irin su share fa'ida ko zaɓuɓɓukan haɗuwa, ana iya daidaita su daga 'Saitunan Simulation' da aka nuna a Hoto na 2, kuma Tebu 1 yana nuna tsoffin saitin simulation.
• Idan akwai batun haɗuwa da simulation, zaku iya canza zaɓuɓɓukan ci-gaba don warware ta. An saita zafin jiki zuwa 27 °C a cikin tsohuwar sanarwa a cikin 'Zaɓuɓɓukan Manual'. Kuna iya gyara shi.

  

  Siga	Default	Lura
  Nau'in kwaikwaiyo	Mitar-Yanki	Kar a canza Nau'in Simulators
  Fara Mita	0 Hz	Yi kwaikwayon amsawar mitar don kewayon mitar daga 0 Hz zuwa 100 MHz.
  Ƙarshen Ƙarshen	100 MG Hz
  Zaɓuɓɓukan ci gaba	Ƙimar Simulators	1e-7
  	Taimakon Haɗuwa	–
  Zaɓuɓɓukan hannu	.zazzabi 27	–

Sharuɗɗan kwaikwayo

Misali Suna	Nau'in	Siga	Default Value	Rage Rage		Raka'a
				Min	Max
VSOURCE	Voltage Source	Voltage_matakin	2.5	0	5.5	V
		AC_magnitude	180m	kyauta		V
		AC_lokaci	0.0	gyarawa		°
VDD	Voltage Source for Op-Amp	Voltage_matakin	5	2.5(Lura 1)	5.5(Lura 1)	V
		AC_magnitude	0.0	gyarawa		V
		AC_lokaci	0.0	gyarawa		°
VREF	Voltage Source	Voltage_matakin	2.5	VSS	VDD	V
		AC_magnitude	0.0	gyarawa		V
		AC_lokaci	0.0	gyarawa		°

(Lura ta 1) Saita shi zuwa garantin kewayon aiki na Op-Amps.

Op-Amp abin koyi

Tebur na 3 yana nuna aikin fil ɗin da aka aiwatar. Ka lura cewa Op-Amp samfurin shine ƙirar ɗabi'a don halayen shigarwa/fitarwa, kuma ba a aiwatar da da'irar kariya ko ayyuka marasa alaƙa da manufar.

Sunan Pin	Bayani
+IN	shigarwar mara jujjuyawa
-IN	Juyawa shigarwar
VDD	Tabbataccen wutar lantarki
VSS	Rashin wutar lantarki / ƙasa
FITA	Fitowa

Abubuwan da ke Wuta

Bill of Materials
Tebur na 4 yana nuna jerin abubuwan da aka yi amfani da su a cikin tsarin simintin. Kowane capacitors yana da ma'auni na daidaitaccen kewaye da aka nuna a ƙasa. An saita tsoffin ƙimar daidaitattun abubuwan haɗin zuwa sifili ban da ESR na C. Kuna iya canza ƙimar kowane bangare.

Nau'in	Misali Suna	Default Value	Rage Rage		Raka'a
			Min	Max
Mai adawa	R2_1	10k ku	1k	1M	Ω
	R2_2	10k ku	1k	1M	Ω
	RL 2	10k ku	1k	1M, NC	Ω
Capacitor	C2_1	10	0.1	100	pF
	Saukewa: CL2	25	kyauta, NC		pF

Matsalolin Capacitor daidai

Tsohuwar ƙimar ESR ita ce 2 mΩ.
(Lura 2) Waɗannan sigogi na iya ɗaukar kowane ƙima mai kyau ko sifili a cikin sifili, amma baya bada garantin aiki na IC a kowane yanayi. Koma zuwa takardar bayanan don tantance isassun ƙimar sigogi.

Abubuwan da aka Shawarar

Op-Amp

• TLR728G-LB: Oarancin Kasa & Low Hoise Input / fitarwa High Sport CMS OP-Amps. [JP] [EN] [CN] [KR] [TW] [DE]
• Ana iya samun Labaran Fasaha da Kayan aiki a cikin Albarkatun Zane akan samfurin web shafi.

Sanarwa

1. Bayanin da ke ƙunshe a cikin wannan takaddar an yi niyya don gabatar da samfuran ROHM Group (nan gaba ana kiranta da ROHM). Lokacin amfani da samfuran ROHM, da fatan za a tabbatar da sabbin bayanai ko takaddun bayanai kafin amfani.
2. An ƙirƙira samfuran ROHM kuma ana kera su don amfani a cikin kayan aikin lantarki na gabaɗaya da aikace-aikace (kamar Audio Visual kayan aiki, Kayan Automation Office, kayan sadarwa, kayan gida, na'urorin nishaɗi, da sauransu) ko ƙayyadaddun cikin takaddun bayanai. Don haka, tuntuɓi wakilin tallace-tallace na ROHM kafin amfani da samfuran ROHM a cikin kayan aiki ko na'urori waɗanda ke buƙatar babban dogaro kuma wanda gazawarsu ko rashin aiki na iya haifar da haɗari ko rauni ga rayuwar ɗan adam ko jiki ko wata mummunar lalacewa (kamar kayan aikin likita, sufuri, zirga-zirga, jirgin sama). , jiragen sama, masu sarrafa makamashin nukiliya, sarrafa man fetur, kayan aikin mota gami da na'urorin mota, da sauransu daga baya ana kiransa Specific Applications). Sai dai in ba haka ba an amince da shi a rubuce ta hanyar ROHM a gaba, ROHM ba zai kasance ta kowace hanya da ke da alhakin kowane lalacewa, kashe kuɗi, ko asarar ku ko wasu ɓangarori na uku da suka taso daga amfani da samfuran ROHM don takamaiman Aikace-aikace.
3. Abubuwan kayan lantarki, gami da semiconductor, na iya gazawa ko rashin aiki a wani ƙima. Da fatan za a tabbatar da aiwatar da, bisa alhakinku, isassun matakan tsaro, gami da amma ba'a iyakance ga ƙira mai aminci ba game da rauni na jiki, da lalacewa ga kowace kadara, wanda gazawa ko rashin aikin samfur na iya haifarwa.
4. Bayanin da ke ƙunshe a cikin wannan takaddar, gami da da'irar aikace-aikacen examples and their constants, is intended to explain the standard operation and usage of ROHM products. It is not intended to guarantee, either explicitly or implicitly, the operation of the product in the actual equipment it will be used in. As a result, you are solely responsible for it, and you must exercise your own independent verification and judgment in the use of such information contained in this document. ROHM shall not be in any way responsible or liable for any damages, expenses, or losses incurred by you or third parties arising from the use of such information.
5. Lokacin fitar da samfuran ROHM ko fasahohin da aka kwatanta a cikin wannan takaddar zuwa wasu ƙasashe, dole ne ku bi ƙa'idodi da tanadin da aka ƙulla a cikin duk dokokin fitarwa da ka'idoji, kamar Dokar Musanya Waje da Kasuwancin Waje da Dokokin Gudanar da Fitarwa na Amurka, kuma ku bi ka'idodin. hanyoyin da suka wajaba a ƙarƙashin waɗannan tanade-tanaden.
6. Bayanan fasaha da bayanan da aka siffanta a cikin wannan takaddar, gami da da'irar aikace-aikace na yau da kullun, sune examples only and are not intended to guarantee that to are free from infringement of third parties’ intellectual property or other rights. ROHM does not grant any license, express or implied, to implement, use, or exploit any intellectual property or other rights owned or controlled by ROHM or any third parties concerning the information contained herein.
7. Babu wani ɓangare na wannan takarda da za a iya sake bugawa ko sake bugawa ta kowace hanya ta kowace hanya ba tare da rubutaccen izinin ROHM ba.
8. Duk bayanan da ke ƙunshe a cikin wannan takarda na yanzu har zuwa ranar bugawa kuma ana iya canzawa ba tare da sanarwa ba. Kafin siye ko amfani da samfuran ROHM, da fatan za a tabbatar da sabon bayani tare da wakilin tallace-tallace na ROHM.
9. ROHM baya bada garantin cewa bayanin da ke ciki ba shi da kuskure. ROHM ba zai kasance ta kowace hanya da alhakin kowane lalacewa, kashe kudi, ko asarar da ku ko wasu na uku suka haifar sakamakon kurakuran da ke cikin wannan takarda ba.

https://www.rohm.com/contactus

Tambayoyin da ake yawan yi (FAQ)

• Can I modify the parameters of the components in the simulation?
  Yes, you can customize the parameters of components shown in blue, such as VSRCE or peripheral components, to simulate the non-inverting amplifier tare da yanayin aiki da ake so.
• Menene tsoho nau'in kwaikwayo?
  The default simulation type is Frequency-Domain to analyze the frequency response from 0 Hz to 100 MHz.

Takardu / Albarkatu

ROHM TLR728G-LB Noise Rail zuwa Rail Input da Fitar Babban Gudun CMOS Amplififi [pdf] Jagorar mai amfani TLR728G-LB, TLR728G-LB Noise Rail zuwa Rail Input da Fitar Babban Gudun CMOS Amplifier, Noise Rail zuwa Rail Input da Fitarwa High Speed CMOS Amplifier, Input da Fitarwa High Speed CMOS Ampmai kunnawa, Babban Gudun CMOS Ampmai girma, CMOS Amplififi

Magana

• Manual mai amfani