ID card

Senin, 16 Agustus 2010

Bagi temen yang belum dapat id card, ni aq punya file nya :
di sini ada 4 file :

  1. gambar panji elektro
  2. biodata id card
  3. penilianan pengkaderan
  4. panji elektro word
cara pembuatan :

  • download semua file mulai dari no 1 sampai no 4
  • buka file no 4 (PANJI ELEKTRO WORD)
  • pada Ms Word akan tampak gambar panji elektro yang sudah di edit
  • print hasil nya di kertas bufallo
  • buka file no 2 (BIODATA ID CARD)
  • pada MS Word akan tampak biodata yang kosong (silahkan di isi dengan biodata masing masing)
  • print hasilnya di kertas buffallo yang suda ada print gamabar panji
  • buka file no 3 (PENILAIAN PENGKADERAN)
  • pada ms word akan tampak tabel penilaian pengkaderan beserta ketentuannya
  • print file tersebut di balik kertas buffalo hasil dari print kedua file
atau mau buat id card sendiri...
silahkan download file gamabar panji nya disini

semoga bermanfaat

Uang Bayaran

Rabu, 28 Juli 2010

Power Supply
Resistor 1
Resistor 2
Resistor 3
Resistor 4
Resistor 5
Resistor 6
Resistor 7
Resistor 8
Resistor 9
Resistor 10
Resistor 11
Resistor 12
Resistor a
Resistor b
Resistor c
Resistor d
Resistor e
Resistor f
Resistor g
Resistor h
Resistor i
Resistor j
Resistor k
Resistor l
Resistor m

Wirelles Microphone

Minggu, 25 Juli 2010

Komponen Rangkaian Wireless Microphone

R1 = 10K (brown-black-orange)
R2,R3 = 100K (brown-black-yellow)
R4 = 470 ohm (yellow-violet-brown)
C1,C3 = 4.7pF (4p7), ceramic
C2,C4 = 4.7uF-16V, electrolytic
C5 = 0.001uF (1nF), ceramic
C6 = 470pF, ceramic
Q1,Q2 = 2N2222, NPN transistor
L1 = 1uH, variable inductor
Mic = Electret mike, 2 wires
Couple Notes:
Q1 amplifies the input signal via C4 from the electret microphone.
Q2 acts as an oscillator and the signal coming off C2 is fed onto the base of Q2.
L1/C1 is a so called ‘tank’ circuit and operates in the 88-105MHz band on your regular AM/FM radio dial.
L1 is a 1uH variable inductor coil to be able to tune it a little bit, and the range of 1uH is approximate.
The antenna can be as simple as a 8″ (21cm) piece of wire of any kind.

Current Limitting Power Supply

This is a 1-amp variable-voltage PSU. It adjusts from about 3v to 24v: and has the added feature that you can limit the maximum output current. This is invaluable when (for example) you power-up a project for the first time or soak-test a piece of equipment.

clps


Notes
SW3 is the on/off switch. It also lets you choose between the output with the current limit and the one without. SW2 provides a selection of three different limits. You can increase or decrease this number if you wish. The limits are fixed by R4, R5 & R6. They are set at 10mA, 25mA & 65mA respectively; but you can choose whatever limits you like. If you try to draw a current above the limit you've selected, the output voltage will fall. Thus, the voltmeter indicates when the load on the output is excessive.

clps_layout


The housing should be well ventilated. The heatsink is a folded strip of aluminium about 2mm thick, 18cm long and 6cm tall. SW1 allows you to choose between the (3v to 12v) and (3v to 24v) outputs. This reduces the power the heatsink has to dissipate when the output voltage is low.

clps_panel


The drawing of the front panel is intended mainly as a wiring diagram - you can choose your own layout. The pin spacing of the L200C doesn't suit the stripboard; but with a little persuasion it can be made to fit. Since the limiting resistors may have a relatively low value, a few ohms between the contacts of the wafer-switch will have a significant effect. If (with time) you find that the limits have fallen, use a spray-cleaner on the switch.

Detektor Gerak dengan Sensor Infra Red

Pendeteksi gerak yang sering kita dengar, adalah menggunakan sensor ultrasonic, kelebihan sensor ini adalah sensitive dan responnya cepat.

Tetapi permasalahan yang utama adalah kadang-kadang s
ensor ini merespon juga terhadap getaran di lingkungan sekitar, seperti mobil yang lewat atau suara pesawat udara, akibatnya terjadi kekeliruan respon yang tidak kita harapkan.

Hal tersebut bisa diatasi dengan menggunakan sensor aktif infra merah. Konsep dasarnya hampir sama dengan sensor ultrasonic seperti gambar di bawah ini.

Photodioda sebagai transmitter mengeluarkan pancaran denyut infra merah dengan frekuensi tertentu 5KHz, kemudian dipantulkan oleh reflector di depannya. dan diterima oleh phototransistor sebagai receiver-nya. Object yang dideteksi berada diantara transmitter-receiver dengan reflector.

Circuit di sebelah kiri adalah transmitter circuit yang menghasilkan modulasi denyut inframerah 5KHz. Di sebelah kanan (receiver circuit) terdapat “resonance tuned amplifier” yang bandwidth-nya bisa kita kontrol agar dapat menangkap denyut modulasi 5Khz dari transmitter. Pengontrolan bandwidth ini juga berfungsi untuk mengurangi sensitivitas terhadap efek cahaya lain di sekitarnya