Group items tagged Meter - uydudoktoru.com

Precison Power Supply, 0-40V/2A (0-40V/2A Güç Kaynağı) - 0 views

uydudoktoru.com/...v-2a-0-40v-2a-guc-kaynagi.html

shared by Ahmet UZUN on 18 Mar 12 - No Cached

Ahmet UZUN on 18 Mar 12

" Precision Power Supply © 1986 Doug Bedrosian and 2010 Tony van Roon "This Precision Power Supply is a nice addition on your workbench as primary, or in my case, a supplementary power supply. With zero to 40V and 2A with adjustable current limiting it will surely gets lots of use on your bench. On average the most amperage for a power supply someone needs is around two or three amps. The sensitivity for current limiting is fully adjustable. Have fun building!" Introduction: Test instruments are considered to be some of the most useful tools available when constructing a project. They are also considered to be the most expensive tools one could buy. For instance, a power supply of any quality and usefulness can range from several hundred dollars to several thousand dollars. The alternative to buying a power supply is to build one. The power supply in this article has a voltage range from 0 to 40V and a current range from 0 to 2 amps with current limiting set by the user. The quality of the supply is determined by the time and care the builder takes while constructing it. How It Works: The power supply is best understood when divided into separate parts. The first parts to look at are the two power supply sections. The output supply section consists of XFMR1, Br1, C1, and C2. They supply the appropriate voltage and current required at the output. The IC supply consists of XFMR2, Br2, and C3. The two power supply sections must be separate from each other because a floating ground is required for IC1. The next section is the voltage control. RV1 and R2 determine the operating point of a constant current source out of pin 3 of IC1. By varying RV1 the maximum output voltage will be set. Pins 8 and 9 are inputs to a high gain differential amplifier contained in IC1. By adjusting potentiometer P1 the voltage at pin 8 will vary; this will cause the voltage at the output to change until it is equal to the voltage at pin 8. Due to the high gain of the differenti

<div class="cArrow"> </div><div class="cContentInner">" Precision Power Supply © 1986 Doug Bedrosian and 2010 Tony van Roon "This Precision Power Supply is a nice addition on your workbench as primary, or in my case, a supplementary power supply. With zero to 40V and 2A with adjustable current limiting it will surely gets lots of use on your bench. On average the most amperage for a power supply someone needs is around two or three amps. The sensitivity for current limiting is fully adjustable. Have fun building!" Introduction: Test instruments are considered to be some of the most useful tools available when constructing a project. They are also considered to be the most expensive tools one could buy. For instance, a power supply of any quality and usefulness can range from several hundred dollars to several thousand dollars. The alternative to buying a power supply is to build one. The power supply in this article has a voltage range from 0 to 40V and a current range from 0 to 2 amps with current limiting set by the user. The quality of the supply is determined by the time and care the builder takes while constructing it. How It Works: The power supply is best understood when divided into separate parts. The first parts to look at are the two power supply sections. The output supply section consists of XFMR1, Br1, C1, and C2. They supply the appropriate voltage and current required at the output. The IC supply consists of XFMR2, Br2, and C3. The two power supply sections must be separate from each other because a floating ground is required for IC1. The next section is the voltage control. RV1 and R2 determine the operating point of a constant current source out of pin 3 of IC1. By varying RV1 the maximum output voltage will be set. Pins 8 and 9 are inputs to a high gain differential amplifier contained in IC1. By adjusting potentiometer P1 the voltage at pin 8 will vary; this will cause the voltage at the output to change until it is equal to the voltage at pin 8. Due to the high gain of the differenti</div>

...

Cancel
Ahmet UZUN on 18 Mar 12

Precision Power Supply © 1986 Doug Bedrosian and 2010 Tony van Roon "This Precision Power Supply is a nice addition on your workbench as primary, or in my case, a supplementary power supply. With zero to 40V and 2A with adjustable current limiting it will surely gets lots of use on your bench. On average the most amperage for a power supply someone needs is around two or three amps. The sensitivity for current limiting is fully adjustable. Have fun building!" Introduction: Test instruments are considered to be some of the most useful tools available when constructing a project. They are also considered to be the most expensive tools one could buy. For instance, a power supply of any quality and usefulness can range from several hundred dollars to several thousand dollars. The alternative to buying a power supply is to build one. The power supply in this article has a voltage range from 0 to 40V and a current range from 0 to 2 amps with current limiting set by the user. The quality of the supply is determined by the time and care the builder takes while constructing it. How It Works: The power supply is best understood when divided into separate parts. The first parts to look at are the two power supply sections. The output supply section consists of XFMR1, Br1, C1, and C2. They supply the appropriate voltage and current required at the output. The IC supply consists of XFMR2, Br2, and C3. The two power supply sections must be separate from each other because a floating ground is required for IC1. The next section is the voltage control. RV1 and R2 determine the operating point of a constant current source out of pin 3 of IC1. By varying RV1 the maximum output voltage will be set. Pins 8 and 9 are inputs to a high gain differential amplifier contained in IC1. By adjusting potentiometer P1 the voltage at pin 8 will vary; this will cause the voltage at the output to change until it is equal to the voltage at pin 8. Due to the

<div class="cArrow"> </div><div class="cContentInner">Precision Power Supply © 1986 Doug Bedrosian and 2010 Tony van Roon "This Precision Power Supply is a nice addition on your workbench as primary, or in my case, a supplementary power supply. With zero to 40V and 2A with adjustable current limiting it will surely gets lots of use on your bench. On average the most amperage for a power supply someone needs is around two or three amps. The sensitivity for current limiting is fully adjustable. Have fun building!" Introduction: Test instruments are considered to be some of the most useful tools available when constructing a project. They are also considered to be the most expensive tools one could buy. For instance, a power supply of any quality and usefulness can range from several hundred dollars to several thousand dollars. The alternative to buying a power supply is to build one. The power supply in this article has a voltage range from 0 to 40V and a current range from 0 to 2 amps with current limiting set by the user. The quality of the supply is determined by the time and care the builder takes while constructing it. How It Works: The power supply is best understood when divided into separate parts. The first parts to look at are the two power supply sections. The output supply section consists of XFMR1, Br1, C1, and C2. They supply the appropriate voltage and current required at the output. The IC supply consists of XFMR2, Br2, and C3. The two power supply sections must be separate from each other because a floating ground is required for IC1. The next section is the voltage control. RV1 and R2 determine the operating point of a constant current source out of pin 3 of IC1. By varying RV1 the maximum output voltage will be set. Pins 8 and 9 are inputs to a high gain differential amplifier contained in IC1. By adjusting potentiometer P1 the voltage at pin 8 will vary; this will cause the voltage at the output to change until it is equal to the voltage at pin 8. Due to the</div>

...

Cancel

ICL7107 ile yapılmış amper metre devresi (ICL7107 Ampere Meter) - 0 views

www.uydudoktoru.com/resi-icl7107-ampere-meter.html

ICL7107 ile yapılmış amper metre devresi (ICL7107 Ampere Meter)

shared by Ahmet UZUN on 13 Mar 12 - No Cached

ICL7107 ile yapılmış amper metre devresi (ICL7107 Ampere Meter) yukardaki şemada yer almaktadır
...

Cancel

Ahmet UZUN on 13 Mar 12

ICL7107 ile yapılmış amper metre devresi (ICL7107 Ampere Meter)

<div class="cArrow"> </div><div class="cContentInner">ICL7107 ile yapılmış amper metre devresi (ICL7107 Ampere Meter) </div>

...

Cancel
Ahmet UZUN on 13 Mar 12

ICL7107 ile yapılmış amper metre devresi (ICL7107 Ampere Meter)

<div class="cArrow"> </div><div class="cContentInner">ICL7107 ile yapılmış amper metre devresi (ICL7107 Ampere Meter)</div>

...

Cancel

Audio Power Meter Using Duo LED - 0 views

www.uydudoktoru.com/...power-meter-using-duo-led.html

Audio Power Meter Using Duo LED

shared by Ahmet UZUN on 16 Dec 12 - No Cached

Audio Power Meter Using Duo LED (Çift renkli led ile Ses Güç Ölçer devresi)
...

Cancel

Ahmet UZUN on 16 Dec 12

"Audio Power Meter Using Duo LED"

<div class="cArrow"> </div><div class="cContentInner">"Audio Power Meter Using Duo LED"</div>

...

Cancel

0-30 vdc stabılızed power supply wıth current control 0.002-3 a - 0 views

www.uydudoktoru.com/current-control-0-002-3-a.html

0-30 vdc stabılızed power supply wıth current control 0.002-3 a

shared by Ahmet UZUN on 14 Mar 12 - No Cached

Ahmet UZUN on 14 Mar 12

"0-30 VDC STABILIZED POWER SUPPLY WITH CURRENT CONTROL 0.002-3 A 0-30 VDC STABİLİZE GÜÇ KAYNAĞI İLE AKIM KONTROL,002-3 A Orijinal görüntüsünü görmek için buraya tıklayın. 925x541 px. General Description This is a high quality power supply with a continuously variable stabilised output adjustable at any value between 0 and 30VDC. The circuit also incorporates an electronic output current limiter that effectively controls the output current from a few milliamperes (2 mA) to the maximum output of three amperes that the circuit can deliver. This feature makes this power supply indispensable in the experimenters laboratory as it is possible to limit the current to the typical maximum that a circuit under test may require, and power it up then, without any fear that it may be damaged if something goes wrong. There is also a visual indication that the current limiter is in operation so that you can see at a glance that your circuit is exceeding or not its preset limits. Technical Specifications - Characteristics Input Voltage: ................ 24 VAC Input Current: ................ 3 A (max) Output Voltage: ............. 0-30 V adjustable Output Current: ............. 2 mA-3 A adjustable Output Voltage Ripple: . 0.01 % maximum FEATURES - Reduced dimensions, easy construction, simple operation. - Output voltage easily adjustable. - Output current limiting with visual indication. - Complete protection of the supplied device against over loads and malfunction. How it Works To start with, there is a step-down mains transformer with a secondary winding rated at 24 V/3 A, which is connected across the input points of the circuit at pins 1 & 2. (the quality of the supplies output will be directly proportional to the quality of the transformer). The AC voltage of the transformers secondary winding is rectified by the bridge formed by the four diodes D1-D4. The DC voltage taken across the output of the bridge is smoothed by the filter formed by the

<div class="cArrow"> </div><div class="cContentInner">"0-30 VDC STABILIZED POWER SUPPLY WITH CURRENT CONTROL 0.002-3 A 0-30 VDC STABİLİZE GÜÇ KAYNAĞI İLE AKIM KONTROL,002-3 A Orijinal görüntüsünü görmek için buraya tıklayın. 925x541 px. General Description This is a high quality power supply with a continuously variable stabilised output adjustable at any value between 0 and 30VDC. The circuit also incorporates an electronic output current limiter that effectively controls the output current from a few milliamperes (2 mA) to the maximum output of three amperes that the circuit can deliver. This feature makes this power supply indispensable in the experimenters laboratory as it is possible to limit the current to the typical maximum that a circuit under test may require, and power it up then, without any fear that it may be damaged if something goes wrong. There is also a visual indication that the current limiter is in operation so that you can see at a glance that your circuit is exceeding or not its preset limits. Technical Specifications - Characteristics Input Voltage: ................ 24 VAC Input Current: ................ 3 A (max) Output Voltage: ............. 0-30 V adjustable Output Current: ............. 2 mA-3 A adjustable Output Voltage Ripple: . 0.01 % maximum FEATURES - Reduced dimensions, easy construction, simple operation. - Output voltage easily adjustable. - Output current limiting with visual indication. - Complete protection of the supplied device against over loads and malfunction. How it Works To start with, there is a step-down mains transformer with a secondary winding rated at 24 V/3 A, which is connected across the input points of the circuit at pins 1 & 2. (the quality of the supplies output will be directly proportional to the quality of the transformer). The AC voltage of the transformers secondary winding is rectified by the bridge formed by the four diodes D1-D4. The DC voltage taken across the output of the bridge is smoothed by the filter formed by the </div>

...

Cancel
Ahmet UZUN on 14 Mar 12

0-30 vdc stabılızed power supply wıth current control 0.002-3 a

<div class="cArrow"> </div><div class="cContentInner">0-30 vdc stabılızed power supply wıth current control 0.002-3 a</div>

...

Cancel

1.3W VHF RF Amplifier 2SC1970 88-108 MHz - 0 views

www.uydudoktoru.com/...lifier-2sc1970-88-108-mhz.html

1.3W VHF RF Amplifier 2SC1970 88-108 MHz

shared by Ahmet UZUN on 11 Apr 12 - No Cached

This RF power amplifier is based on the transistor 2SC1970 and 2N4427. The output power is about 1.3W and the input driving power is 30-50mW. It will still get your RF signal quit far and I advice you to use a good 50 ohm resistor as dummy load. To tune this amplifier you can either use a power meter/wattmeter, SWR unit or you can do using a RF field meter. RF Amplifier Assembly Good grounding is very important in a RF system. I use bottom layer as Ground and I connect it with the top with wires to get a good grounding. Make sure you have some cooling at the transistor. In my case I put the 2SC1970 close to the PCB to handle the heat. With good tuning the transistor shouldn't become hot. RF Amplifier Printed Circuit Board You can download a pdf file which is the black PCB. The PCB is mirrored because the printed side side should be faced down the board during UV exposure. To the right you will find a pic showing the assembly of all components on the same board. This is how the real board should look when you are going to solder the components. It is a board made for surface mounted components, so the copper is on the top layer. I am sure you can still use hole mounted components as well. Grey area is copper and each component is draw in different colors all to make it easy to identify for you. The scale of the pdf is 1:1 and the picture at right is magnified with 4 times. Click on the pic to enlarge it. Low-Pass Filter Some of you might want to add a low-pass filter at the output. I have not added any extra low pass filter in my construction because I don't think it is needed. You can easy find several homepages about low pass filter and how to build them.
...

Cancel

Ahmet UZUN on 11 Apr 12

1.3W VHF RF Amplifier 2SC1970 88-108 MHz

<div class="cArrow"> </div><div class="cContentInner">1.3W VHF RF Amplifier 2SC1970 88-108 MHz </div>

...

Cancel
Ahmet UZUN on 11 Apr 12

1.3W VHF RF Amplifier 2SC1970 88-108 MHz

<div class="cArrow"> </div><div class="cContentInner">1.3W VHF RF Amplifier 2SC1970 88-108 MHz</div>

...

Cancel

50 Watt Fm verici yükseltici Devresi (Skema PCB Rangkaian Boster FM 50 Watt) - 0 views

www.uydudoktoru.com/...ngkaian-boster-fm-50-watt.html

50 Watt verici yükseltici Devresi (Skema PCB Rangkaian Boster FM Watt)

shared by Ahmet UZUN on 16 Aug 12 - No Cached

Orijinal görüntüsünü görmek için buraya tıklayın. 780x506 px. Daftar Komponen : TR1 ………………. SC1971. TR2 ………………. SC1964. C1, 4 ……………… 8 pF ( kondensator trimmer batu ). C2, 5 . ……………..10 pF ( Kondensator trimmer batu). C7, 8 ……………….20 pF ( Kondensator trimmer batu). C3, 6 ……………… 2200 mF/50 V. L1, 4, 7 …………. Diameter kawat 2mm Diameter inti udara 8mm . Jumlah lilitan= 3 lilit. L2, 5 …………… Diameter kawat 2mm Diameter inti udara 8mm Jumlah lilitan= 9 lilit . R1, 2 …………….. 100 ohm / 2 watt. L3, 6 …………….. Diameter kawat 0,4mm *.Catatan : Untuk R1, 2 dan L3, 6 dililitkan bersama . Cara merakitnya : 1. Kamu beli papan PCB polos di toko elektronik, lalu kamu lukis menggunakan spidol hitam hitam sesuai dengan gambar di atas kemudian rendam pada larutan feriClorida .Tunggu sampai bagian yang tidak terkena spidol hilang . 1. Kamu beli papan PCB polos di toko elektronik, lalu kamu lukis menggunakan spidol hitam hitam sesuai dengan gambar di atas kemudian rendam pada larutan feriClorida .Tunggu sampai bagian yang tidak terkena spidol hilang . 2. Setelah papan PCB sudah jadi, bersikan sisa tinta spidol dengan menggunakan kertas amplas halus kemudiaan libangilah pada bagian transistor( TR1, 2 ) membentuk kotak sesuai dengan bentuk transistor itu agar bisa menempel pada plat pendingin . 3. Pasanglah komponen-komponen pada tempatnya sesuai dengan gambar di atas, ingat kaki transistor jangan sampai terbalik . 4. Setelah semua komponen telah terpasang, sambungkan output dari pemancar 5 watt ke input Booster . 5. Di bagian output Booster, kamu pasang Dummy Load sebagai pengganti antena sekaligus untuk mengukur besaran daya keluaran dari Booster yang telah kamu rakit . 6. Sambungkan juga kabel tegangan DC 12V pada Booster, ingan jangan sampai terbalik kabel(+) dan (-) nya . 7. Untuk mengoptimalkan daya keluaran pada booster, lakukan penyetelan dengan mentrim kondensator trimmer (C1, 2, 4, 5, 7, 8 ) dan merenggangkan Lilitan( L1, 4, 7 ) sampai kamu mendapat daya keluaran yang maksimal . 8. Bila Daya keluran Booster sudah maksimal, kamu bisa mencobanya dengan menyambungkan ke Antena Pemancar FM . 9. Untuk mengetahui kekuatan modulasi dan mengatur ketepatan antena, gunakan SWR Meter . 10. Untuk kabel antena gunakan kabel koaksial RG 58 atau RG 8 yang berimpedansi 50 ohm . merakit boster pemancar fm 50w.pdf
...

Cancel

Ahmet UZUN on 16 Aug 12

50 Watt Fm verici yükseltici Devresi (Skema PCB Rangkaian Boster FM 50 Watt)

<div class="cArrow"> </div><div class="cContentInner">50 Watt Fm verici yükseltici Devresi (Skema PCB Rangkaian Boster FM 50 Watt) </div>

...

Cancel
Ahmet UZUN on 16 Aug 12

50 Watt Fm verici yükseltici Devresi (Skema PCB Rangkaian Boster FM 50 Watt)

<div class="cArrow"> </div><div class="cContentInner">50 Watt Fm verici yükseltici Devresi (Skema PCB Rangkaian Boster FM 50 Watt)</div>

...

Cancel

50 Watt Fm verici yükseltici Devresi (Skema PCB Rangkaian Boster FM 50 Watt) - 0 views

www.uydudoktoru.com/...ngkaian-boster-fm-50-watt.html

50 Watt Fm verici yükseltici Devresi

shared by Ahmet UZUN on 02 Jul 14 - No Cached

Orijinal görüntüsünü görmek için buraya tıklayın. 780x506 px. Daftar Komponen : TR1 ………………. SC1971. TR2 ………………. SC1964. C1, 4 ……………… 8 pF ( kondensator trimmer batu ). C2, 5 . ……………..10 pF ( Kondensator trimmer batu). C7, 8 ……………….20 pF ( Kondensator trimmer batu). C3, 6 ……………… 2200 mF/50 V. L1, 4, 7 …………. Diameter kawat 2mm Diameter inti udara 8mm . Jumlah lilitan= 3 lilit. L2, 5 …………… Diameter kawat 2mm Diameter inti udara 8mm Jumlah lilitan= 9 lilit . R1, 2 …………….. 100 ohm / 2 watt. L3, 6 …………….. Diameter kawat 0,4mm *.Catatan : Untuk R1, 2 dan L3, 6 dililitkan bersama . Cara merakitnya : 1. Kamu beli papan PCB polos di toko elektronik, lalu kamu lukis menggunakan spidol hitam hitam sesuai dengan gambar di atas kemudian rendam pada larutan feriClorida .Tunggu sampai bagian yang tidak terkena spidol hilang . 1. Kamu beli papan PCB polos di toko elektronik, lalu kamu lukis menggunakan spidol hitam hitam sesuai dengan gambar di atas kemudian rendam pada larutan feriClorida .Tunggu sampai bagian yang tidak terkena spidol hilang . 2. Setelah papan PCB sudah jadi, bersikan sisa tinta spidol dengan menggunakan kertas amplas halus kemudiaan libangilah pada bagian transistor( TR1, 2 ) membentuk kotak sesuai dengan bentuk transistor itu agar bisa menempel pada plat pendingin . 3. Pasanglah komponen-komponen pada tempatnya sesuai dengan gambar di atas, ingat kaki transistor jangan sampai terbalik . 4. Setelah semua komponen telah terpasang, sambungkan output dari pemancar 5 watt ke input Booster . 5. Di bagian output Booster, kamu pasang Dummy Load sebagai pengganti antena sekaligus untuk mengukur besaran daya keluaran dari Booster yang telah kamu rakit . 6. Sambungkan juga kabel tegangan DC 12V pada Booster, ingan jangan sampai terbalik kabel(+) dan (-) nya . 7. Untuk mengoptimalkan daya keluaran pada booster, lakukan penyetelan dengan mentrim kondensator trimmer (C1, 2, 4, 5, 7, 8 ) dan merenggangkan Lilitan( L1, 4, 7 ) sampai kamu mendapat daya keluaran yang maksimal . 8. Bila Daya keluran Booster sudah maksimal, kamu bisa mencobanya dengan menyambungkan ke Antena Pemancar FM . 9. Untuk mengetahui kekuatan modulasi dan mengatur ketepatan antena, gunakan SWR Meter . 10. Untuk kabel antena gunakan kabel koaksial RG 58 atau RG 8 yang berimpedansi 50 ohm . merakit boster pemancar fm 50w.pdf
...

Cancel

Ahmet UZUN on 02 Jul 14

50 Watt Fm verici yükseltici Devresi (Skema PCB Rangkaian Boster FM 50 Watt)

<div class="cArrow"> </div><div class="cContentInner">50 Watt Fm verici yükseltici Devresi (Skema PCB Rangkaian Boster FM 50 Watt)</div>

...

Cancel

Group items tagged

Precison Power Supply, 0-40V/2A (0-40V/2A Güç Kaynağı) - 0 views

ICL7107 ile yapılmış amper metre devresi (ICL7107 Ampere Meter) - 0 views

Audio Power Meter Using Duo LED - 0 views

0-30 vdc stabılızed power supply wıth current control 0.002-3 a - 0 views

1.3W VHF RF Amplifier 2SC1970 88-108 MHz - 0 views

50 Watt Fm verici yükseltici Devresi (Skema PCB Rangkaian Boster FM 50 Watt) - 0 views

50 Watt Fm verici yükseltici Devresi (Skema PCB Rangkaian Boster FM 50 Watt) - 0 views

Related searches