VCD Player in Indiagreenspun.com : LUSENET : Video CD : One Thread |
I am interested in buying a VCD player in India. Could you guide me on vcd players available in india with prices? Is there a support for DVDs in India? Is there a web-site which gives information about vcd/dvd players in India? Thanks in advance.- Pradeep
-- Pradeep (pbidkar@hotmail.com), November 30, 1999
Hi, I am ashok from INDIA working in Honeywell, Phoenix. Even i am also interested in buying some DVD's here, as i know SONY DVD cost's about 22,000. Here when i saw in one of the shops , found PHILIPS DVD as 200$ which is 9K odd. Even i am searching for more details, if u found pls let me know. Thanks Ashok
-- C.P. Ashok Kumar (cpashok@usa.net), March 08, 2001.
This circuit makes a nice lamp that is low power, runs cool, and has a long lifetime. The lamp puts out a warm yellow shade of light, the color may be adjusted by changing the number of red or green LED strings. SPECIFICATIONS Operating Voltage: 12V DC Operating Current: 80ma approx. THEORY The current flows and the LEDs light. There are 4 series strings of LEDs in this circuit, the resistors limit the current through the LEDs and prevent them from burning up. The resistors were adjusted to get approximately 20ma through each string, different LEDs will have different voltage drops and resulting current flow, these resistor values will work fine at 12V. CONSTRUCTON The circuit was mounted in a plastic 35MM photographic slide box with a translucent plastic top (not shown). I cut a piece of perforated board to fit inside of the slide box, the LEDs and resistors were inserted through the holes in the board and the wires were soldered together on the back side of the board. I recommend using a heat sink on the LED wires while you solder them, LEDs are very heat sensitive. A length of speaker wire was used to connect the lamp to the power source. The circuit board was connected to the plastic box with one 6- 32 screw and several 6-32 nuts were used as spacers. ALIGNMENT None required USE Connect this circuit to a 12V battery or power supply, it puts out a nice glow. You can read by this light if you use it up close, it could be a good personal reading lamp, although white LEDs would improve the color balance a lot. PARTS 10x green LEDs, T1-3/4 size 9x red LEDs, T1-3/4 size 3x yellow LEDs, T1-3/4 size 2x 100 ohm 1/2 W resistors 1x 56 ohm 1/2 W resistor 1x 62 ohm 1/2 W resistor (can also be 56 ohm, it's what I had on hand) 1x 1/2 Amp 28VDC fuse 1x Plastic box with diffused (blurry) top, I used a 35mm slide box. 1x 6-32 3/8" screw 2x 6/32 nuts PARTS SOURCES Jameco 1-800-831-4242 http://www.jameco.com/ Digi-Key 1-800-DIGIKEY http://www.digikey.com/
---------------------------------------------------------------------- ---------- Back to Fc's Solar Circuits pageThis circuit makes a nice lamp that is low power, runs cool, and has a long lifetime. The lamp puts out a warm yellow shade of light, the color may be adjusted by changing the number of red or green LED strings. SPECIFICATIONS Operating Voltage: 12V DC Operating Current: 80ma approx. THEORY The current flows and the LEDs light. There are 4 series strings of LEDs in this circuit, the resistors limit the current through the LEDs and prevent them from burning up. The resistors were adjusted to get approximately 20ma through each string, different LEDs will have different voltage drops and resulting current flow, these resistor values will work fine at 12V. CONSTRUCTON The circuit was mounted in a plastic 35MM photographic slide box with a translucent plastic top (not shown). I cut a piece of perforated board to fit inside of the slide box, the LEDs and resistors were inserted through the holes in the board and the wires were soldered together on the back side of the board. I recommend using a heat sink on the LED wires while you solder them, LEDs are very heat sensitive. A length of speaker wire was used to connect the lamp to the power source. The circuit board was connected to the plastic box with one 6- 32 screw and several 6-32 nuts were used as spacers. ALIGNMENT None required USE Connect this circuit to a 12V battery or power supply, it puts out a nice glow. You can read by this light if you use it up close, it could be a good personal reading lamp, although white LEDs would improve the color balance a lot. PARTS 10x green LEDs, T1-3/4 size 9x red LEDs, T1-3/4 size 3x yellow LEDs, T1-3/4 size 2x 100 ohm 1/2 W resistors 1x 56 ohm 1/2 W resistor 1x 62 ohm 1/2 W resistor (can also be 56 ohm, it's what I had on hand) 1x 1/2 Amp 28VDC fuse 1x Plastic box with diffused (blurry) top, I used a 35mm slide box. 1x 6-32 3/8" screw 2x 6/32 nuts PARTS SOURCES Jameco 1-800-831-4242 http://www.jameco.com/ Digi-Key 1-800-DIGIKEY http://www.digikey.com/
---------------------------------------------------------------------- ---------- Back to Fc's Solar Circuits pageThis circuit makes a nice lamp that is low power, runs cool, and has a long lifetime. The lamp puts out a warm yellow shade of light, the color may be adjusted by changing the number of red or green LED strings. SPECIFICATIONS Operating Voltage: 12V DC Operating Current: 80ma approx. THEORY The current flows and the LEDs light. There are 4 series strings of LEDs in this circuit, the resistors limit the current through the LEDs and prevent them from burning up. The resistors were adjusted to get approximately 20ma through each string, different LEDs will have different voltage drops and resulting current flow, these resistor values will work fine at 12V. CONSTRUCTON The circuit was mounted in a plastic 35MM photographic slide box with a translucent plastic top (not shown). I cut a piece of perforated board to fit inside of the slide box, the LEDs and resistors were inserted through the holes in the board and the wires were soldered together on the back side of the board. I recommend using a heat sink on the LED wires while you solder them, LEDs are very heat sensitive. A length of speaker wire was used to connect the lamp to the power source. The circuit board was connected to the plastic box with one 6- 32 screw and several 6-32 nuts were used as spacers. ALIGNMENT None required USE Connect this circuit to a 12V battery or power supply, it puts out a nice glow. You can read by this light if you use it up close, it could be a good personal reading lamp, although white LEDs would improve the color balance a lot. PARTS 10x green LEDs, T1-3/4 size 9x red LEDs, T1-3/4 size 3x yellow LEDs, T1-3/4 size 2x 100 ohm 1/2 W resistors 1x 56 ohm 1/2 W resistor 1x 62 ohm 1/2 W resistor (can also be 56 ohm, it's what I had on hand) 1x 1/2 Amp 28VDC fuse 1x Plastic box with diffused (blurry) top, I used a 35mm slide box. 1x 6-32 3/8" screw 2x 6/32 nuts PARTS SOURCES Jameco 1-800-831-4242 http://www.jameco.com/ Digi-Key 1-800-DIGIKEY http://www.digikey.com/
---------------------------------------------------------------------- ---------- Back to Fc's Solar Circuits pageThis circuit makes a nice lamp that is low power, runs cool, and has a long lifetime. The lamp puts out a warm yellow shade of light, the color may be adjusted by changing the number of red or green LED strings. SPECIFICATIONS Operating Voltage: 12V DC Operating Current: 80ma approx. THEORY The current flows and the LEDs light. There are 4 series strings of LEDs in this circuit, the resistors limit the current through the LEDs and prevent them from burning up. The resistors were adjusted to get approximately 20ma through each string, different LEDs will have different voltage drops and resulting current flow, these resistor values will work fine at 12V. CONSTRUCTON The circuit was mounted in a plastic 35MM photographic slide box with a translucent plastic top (not shown). I cut a piece of perforated board to fit inside of the slide box, the LEDs and resistors were inserted through the holes in the board and the wires were soldered together on the back side of the board. I recommend using a heat sink on the LED wires while you solder them, LEDs are very heat sensitive. A length of speaker wire was used to connect the lamp to the power source. The circuit board was connected to the plastic box with one 6- 32 screw and several 6-32 nuts were used as spacers. ALIGNMENT None required USE Connect this circuit to a 12V battery or power supply, it puts out a nice glow. You can read by this light if you use it up close, it could be a good personal reading lamp, although white LEDs would improve the color balance a lot. PARTS 10x green LEDs, T1-3/4 size 9x red LEDs, T1-3/4 size 3x yellow LEDs, T1-3/4 size 2x 100 ohm 1/2 W resistors 1x 56 ohm 1/2 W resistor 1x 62 ohm 1/2 W resistor (can also be 56 ohm, it's what I had on hand) 1x 1/2 Amp 28VDC fuse 1x Plastic box with diffused (blurry) top, I used a 35mm slide box. 1x 6-32 3/8" screw 2x 6/32 nuts PARTS SOURCES Jameco 1-800-831-4242 http://www.jameco.com/ Digi-Key 1-800-DIGIKEY http://www.digikey.com/
---------------------------------------------------------------------- ---------- Back to Fc's Solar Circuits pageThis circuit makes a nice lamp that is low power, runs cool, and has a long lifetime. The lamp puts out a warm yellow shade of light, the color may be adjusted by changing the number of red or green LED strings. SPECIFICATIONS Operating Voltage: 12V DC Operating Current: 80ma approx. THEORY The current flows and the LEDs light. There are 4 series strings of LEDs in this circuit, the resistors limit the current through the LEDs and prevent them from burning up. The resistors were adjusted to get approximately 20ma through each string, different LEDs will have different voltage drops and resulting current flow, these resistor values will work fine at 12V. CONSTRUCTON The circuit was mounted in a plastic 35MM photographic slide box with a translucent plastic top (not shown). I cut a piece of perforated board to fit inside of the slide box, the LEDs and resistors were inserted through the holes in the board and the wires were soldered together on the back side of the board. I recommend using a heat sink on the LED wires while you solder them, LEDs are very heat sensitive. A length of speaker wire was used to connect the lamp to the power source. The circuit board was connected to the plastic box with one 6- 32 screw and several 6-32 nuts were used as spacers. ALIGNMENT None required USE Connect this circuit to a 12V battery or power supply, it puts out a nice glow. You can read by this light if you use it up close, it could be a good personal reading lamp, although white LEDs would improve the color balance a lot. PARTS 10x green LEDs, T1-3/4 size 9x red LEDs, T1-3/4 size 3x yellow LEDs, T1-3/4 size 2x 100 ohm 1/2 W resistors 1x 56 ohm 1/2 W resistor 1x 62 ohm 1/2 W resistor (can also be 56 ohm, it's what I had on hand) 1x 1/2 Amp 28VDC fuse 1x Plastic box with diffused (blurry) top, I used a 35mm slide box. 1x 6-32 3/8" screw 2x 6/32 nuts PARTS SOURCES Jameco 1-800-831-4242 http://www.jameco.com/ Digi-Key 1-800-DIGIKEY http://www.digikey.com/
---------------------------------------------------------------------- ---------- Back to Fc's Solar Circuits pageThis circuit makes a nice lamp that is low power, runs cool, and has a long lifetime. The lamp puts out a warm yellow shade of light, the color may be adjusted by changing the number of red or green LED strings. SPECIFICATIONS Operating Voltage: 12V DC Operating Current: 80ma approx. THEORY The current flows and the LEDs light. There are 4 series strings of LEDs in this circuit, the resistors limit the current through the LEDs and prevent them from burning up. The resistors were adjusted to get approximately 20ma through each string, different LEDs will have different voltage drops and resulting current flow, these resistor values will work fine at 12V. CONSTRUCTON The circuit was mounted in a plastic 35MM photographic slide box with a translucent plastic top (not shown). I cut a piece of perforated board to fit inside of the slide box, the LEDs and resistors were inserted through the holes in the board and the wires were soldered together on the back side of the board. I recommend using a heat sink on the LED wires while you solder them, LEDs are very heat sensitive. A length of speaker wire was used to connect the lamp to the power source. The circuit board was connected to the plastic box with one 6- 32 screw and several 6-32 nuts were used as spacers. ALIGNMENT None required USE Connect this circuit to a 12V battery or power supply, it puts out a nice glow. You can read by this light if you use it up close, it could be a good personal reading lamp, although white LEDs would improve the color balance a lot. PARTS 10x green LEDs, T1-3/4 size 9x red LEDs, T1-3/4 size 3x yellow LEDs, T1-3/4 size 2x 100 ohm 1/2 W resistors 1x 56 ohm 1/2 W resistor 1x 62 ohm 1/2 W resistor (can also be 56 ohm, it's what I had on hand) 1x 1/2 Amp 28VDC fuse 1x Plastic box with diffused (blurry) top, I used a 35mm slide box. 1x 6-32 3/8" screw 2x 6/32 nuts PARTS SOURCES Jameco 1-800-831-4242 http://www.jameco.com/ Digi-Key 1-800-DIGIKEY http://www.digikey.com/
---------------------------------------------------------------------- ---------- Back to Fc's Solar Circuits pageThis circuit makes a nice lamp that is low power, runs cool, and has a long lifetime. The lamp puts out a warm yellow shade of light, the color may be adjusted by changing the number of red or green LED strings. SPECIFICATIONS Operating Voltage: 12V DC Operating Current: 80ma approx. THEORY The current flows and the LEDs light. There are 4 series strings of LEDs in this circuit, the resistors limit the current through the LEDs and prevent them from burning up. The resistors were adjusted to get approximately 20ma through each string, different LEDs will have different voltage drops and resulting current flow, these resistor values will work fine at 12V. CONSTRUCTON The circuit was mounted in a plastic 35MM photographic slide box with a translucent plastic top (not shown). I cut a piece of perforated board to fit inside of the slide box, the LEDs and resistors were inserted through the holes in the board and the wires were soldered together on the back side of the board. I recommend using a heat sink on the LED wires while you solder them, LEDs are very heat sensitive. A length of speaker wire was used to connect the lamp to the power source. The circuit board was connected to the plastic box with one 6- 32 screw and several 6-32 nuts were used as spacers. ALIGNMENT None required USE Connect this circuit to a 12V battery or power supply, it puts out a nice glow. You can read by this light if you use it up close, it could be a good personal reading lamp, although white LEDs would improve the color balance a lot. PARTS 10x green LEDs, T1-3/4 size 9x red LEDs, T1-3/4 size 3x yellow LEDs, T1-3/4 size 2x 100 ohm 1/2 W resistors 1x 56 ohm 1/2 W resistor 1x 62 ohm 1/2 W resistor (can also be 56 ohm, it's what I had on hand) 1x 1/2 Amp 28VDC fuse 1x Plastic box with diffused (blurry) top, I used a 35mm slide box. 1x 6-32 3/8" screw 2x 6/32 nuts PARTS SOURCES Jameco 1-800-831-4242 http://www.jameco.com/ Digi-Key 1-800-DIGIKEY http://www.digikey.com/
---------------------------------------------------------------------- ---------- Back to Fc's Solar Circuits pageThis circuit makes a nice lamp that is low power, runs cool, and has a long lifetime. The lamp puts out a warm yellow shade of light, the color may be adjusted by changing the number of red or green LED strings. SPECIFICATIONS Operating Voltage: 12V DC Operating Current: 80ma approx. THEORY The current flows and the LEDs light. There are 4 series strings of LEDs in this circuit, the resistors limit the current through the LEDs and prevent them from burning up. The resistors were adjusted to get approximately 20ma through each string, different LEDs will have different voltage drops and resulting current flow, these resistor values will work fine at 12V. CONSTRUCTON The circuit was mounted in a plastic 35MM photographic slide box with a translucent plastic top (not shown). I cut a piece of perforated board to fit inside of the slide box, the LEDs and resistors were inserted through the holes in the board and the wires were soldered together on the back side of the board. I recommend using a heat sink on the LED wires while you solder them, LEDs are very heat sensitive. A length of speaker wire was used to connect the lamp to the power source. The circuit board was connected to the plastic box with one 6- 32 screw and several 6-32 nuts were used as spacers. ALIGNMENT None required USE Connect this circuit to a 12V battery or power supply, it puts out a nice glow. You can read by this light if you use it up close, it could be a good personal reading lamp, although white LEDs would improve the color balance a lot. PARTS 10x green LEDs, T1-3/4 size 9x red LEDs, T1-3/4 size 3x yellow LEDs, T1-3/4 size 2x 100 ohm 1/2 W resistors 1x 56 ohm 1/2 W resistor 1x 62 ohm 1/2 W resistor (can also be 56 ohm, it's what I had on hand) 1x 1/2 Amp 28VDC fuse 1x Plastic box with diffused (blurry) top, I used a 35mm slide box. 1x 6-32 3/8" screw 2x 6/32 nuts PARTS SOURCES Jameco 1-800-831-4242 http://www.jameco.com/ Digi-Key 1-800-DIGIKEY http://www.digikey.com/
---------------------------------------------------------------------- ---------- Back to Fc's Solar Circuits pageThis circuit makes a nice lamp that is low power, runs cool, and has a long lifetime. The lamp puts out a warm yellow shade of light, the color may be adjusted by changing the number of red or green LED strings. SPECIFICATIONS Operating Voltage: 12V DC Operating Current: 80ma approx. THEORY The current flows and the LEDs light. There are 4 series strings of LEDs in this circuit, the resistors limit the current through the LEDs and prevent them from burning up. The resistors were adjusted to get approximately 20ma through each string, different LEDs will have different voltage drops and resulting current flow, these resistor values will work fine at 12V. CONSTRUCTON The circuit was mounted in a plastic 35MM photographic slide box with a translucent plastic top (not shown). I cut a piece of perforated board to fit inside of the slide box, the LEDs and resistors were inserted through the holes in the board and the wires were soldered together on the back side of the board. I recommend using a heat sink on the LED wires while you solder them, LEDs are very heat sensitive. A length of speaker wire was used to connect the lamp to the power source. The circuit board was connected to the plastic box with one 6- 32 screw and several 6-32 nuts were used as spacers. ALIGNMENT None required USE Connect this circuit to a 12V battery or power supply, it puts out a nice glow. You can read by this light if you use it up close, it could be a good personal reading lamp, although white LEDs would improve the color balance a lot. PARTS 10x green LEDs, T1-3/4 size 9x red LEDs, T1-3/4 size 3x yellow LEDs, T1-3/4 size 2x 100 ohm 1/2 W resistors 1x 56 ohm 1/2 W resistor 1x 62 ohm 1/2 W resistor (can also be 56 ohm, it's what I had on hand) 1x 1/2 Amp 28VDC fuse 1x Plastic box with diffused (blurry) top, I used a 35mm slide box. 1x 6-32 3/8" screw 2x 6/32 nuts PARTS SOURCES Jameco 1-800-831-4242 http://www.jameco.com/ Digi-Key 1-800-DIGIKEY http://www.digikey.com/
---------------------------------------------------------------------- ---------- Back to Fc's Solar Circuits pageThis circuit makes a nice lamp that is low power, runs cool, and has a long lifetime. The lamp puts out a warm yellow shade of light, the color may be adjusted by changing the number of red or green LED strings. SPECIFICATIONS Operating Voltage: 12V DC Operating Current: 80ma approx. THEORY The current flows and the LEDs light. There are 4 series strings of LEDs in this circuit, the resistors limit the current through the LEDs and prevent them from burning up. The resistors were adjusted to get approximately 20ma through each string, different LEDs will have different voltage drops and resulting current flow, these resistor values will work fine at 12V. CONSTRUCTON The circuit was mounted in a plastic 35MM photographic slide box with a translucent plastic top (not shown). I cut a piece of perforated board to fit inside of the slide box, the LEDs and resistors were inserted through the holes in the board and the wires were soldered together on the back side of the board. I recommend using a heat sink on the LED wires while you solder them, LEDs are very heat sensitive. A length of speaker wire was used to connect the lamp to the power source. The circuit board was connected to the plastic box with one 6- 32 screw and several 6-32 nuts were used as spacers. ALIGNMENT None required USE Connect this circuit to a 12V battery or power supply, it puts out a nice glow. You can read by this light if you use it up close, it could be a good personal reading lamp, although white LEDs would improve the color balance a lot. PARTS 10x green LEDs, T1-3/4 size 9x red LEDs, T1-3/4 size 3x yellow LEDs, T1-3/4 size 2x 100 ohm 1/2 W resistors 1x 56 ohm 1/2 W resistor 1x 62 ohm 1/2 W resistor (can also be 56 ohm, it's what I had on hand) 1x 1/2 Amp 28VDC fuse 1x Plastic box with diffused (blurry) top, I used a 35mm slide box. 1x 6-32 3/8" screw 2x 6/32 nuts PARTS SOURCES Jameco 1-800-831-4242 http://www.jameco.com/ Digi-Key 1-800-DIGIKEY http://www.digikey.com/
---------------------------------------------------------------------- ---------- Back to Fc's Solar Circuits pageThis circuit makes a nice lamp that is low power, runs cool, and has a long lifetime. The lamp puts out a warm yellow shade of light, the color may be adjusted by changing the number of red or green LED strings. SPECIFICATIONS Operating Voltage: 12V DC Operating Current: 80ma approx. THEORY The current flows and the LEDs light. There are 4 series strings of LEDs in this circuit, the resistors limit the current through the LEDs and prevent them from burning up. The resistors were adjusted to get approximately 20ma through each string, different LEDs will have different voltage drops and resulting current flow, these resistor values will work fine at 12V. CONSTRUCTON The circuit was mounted in a plastic 35MM photographic slide box with a translucent plastic top (not shown). I cut a piece of perforated board to fit inside of the slide box, the LEDs and resistors were inserted through the holes in the board and the wires were soldered together on the back side of the board. I recommend using a heat sink on the LED wires while you solder them, LEDs are very heat sensitive. A length of speaker wire was used to connect the lamp to the power source. The circuit board was connected to the plastic box with one 6- 32 screw and several 6-32 nuts were used as spacers. ALIGNMENT None required USE Connect this circuit to a 12V battery or power supply, it puts out a nice glow. You can read by this light if you use it up close, it could be a good personal reading lamp, although white LEDs would improve the color balance a lot. PARTS 10x green LEDs, T1-3/4 size 9x red LEDs, T1-3/4 size 3x yellow LEDs, T1-3/4 size 2x 100 ohm 1/2 W resistors 1x 56 ohm 1/2 W resistor 1x 62 ohm 1/2 W resistor (can also be 56 ohm, it's what I had on hand) 1x 1/2 Amp 28VDC fuse 1x Plastic box with diffused (blurry) top, I used a 35mm slide box. 1x 6-32 3/8" screw 2x 6/32 nuts PARTS SOURCES Jameco 1-800-831-4242 http://www.jameco.com/ Digi-Key 1-800-DIGIKEY http://www.digikey.com/
---------------------------------------------------------------------- ---------- Back to Fc's Solar Circuits pageThis circuit makes a nice lamp that is low power, runs cool, and has a long lifetime. The lamp puts out a warm yellow shade of light, the color may be adjusted by changing the number of red or green LED strings. SPECIFICATIONS Operating Voltage: 12V DC Operating Current: 80ma approx. THEORY The current flows and the LEDs light. There are 4 series strings of LEDs in this circuit, the resistors limit the current through the LEDs and prevent them from burning up. The resistors were adjusted to get approximately 20ma through each string, different LEDs will have different voltage drops and resulting current flow, these resistor values will work fine at 12V. CONSTRUCTON The circuit was mounted in a plastic 35MM photographic slide box with a translucent plastic top (not shown). I cut a piece of perforated board to fit inside of the slide box, the LEDs and resistors were inserted through the holes in the board and the wires were soldered together on the back side of the board. I recommend using a heat sink on the LED wires while you solder them, LEDs are very heat sensitive. A length of speaker wire was used to connect the lamp to the power source. The circuit board was connected to the plastic box with one 6- 32 screw and several 6-32 nuts were used as spacers. ALIGNMENT None required USE Connect this circuit to a 12V battery or power supply, it puts out a nice glow. You can read by this light if you use it up close, it could be a good personal reading lamp, although white LEDs would improve the color balance a lot. PARTS 10x green LEDs, T1-3/4 size 9x red LEDs, T1-3/4 size 3x yellow LEDs, T1-3/4 size 2x 100 ohm 1/2 W resistors 1x 56 ohm 1/2 W resistor 1x 62 ohm 1/2 W resistor (can also be 56 ohm, it's what I had on hand) 1x 1/2 Amp 28VDC fuse 1x Plastic box with diffused (blurry) top, I used a 35mm slide box. 1x 6-32 3/8" screw 2x 6/32 nuts PARTS SOURCES Jameco 1-800-831-4242 http://www.jameco.com/ Digi-Key 1-800-DIGIKEY http://www.digikey.com/
---------------------------------------------------------------------- ---------- Back to Fc's Solar Circuits pageThis circuit makes a nice lamp that is low power, runs cool, and has a long lifetime. The lamp puts out a warm yellow shade of light, the color may be adjusted by changing the number of red or green LED strings. SPECIFICATIONS Operating Voltage: 12V DC Operating Current: 80ma approx. THEORY The current flows and the LEDs light. There are 4 series strings of LEDs in this circuit, the resistors limit the current through the LEDs and prevent them from burning up. The resistors were adjusted to get approximately 20ma through each string, different LEDs will have different voltage drops and resulting current flow, these resistor values will work fine at 12V. CONSTRUCTON The circuit was mounted in a plastic 35MM photographic slide box with a translucent plastic top (not shown). I cut a piece of perforated board to fit inside of the slide box, the LEDs and resistors were inserted through the holes in the board and the wires were soldered together on the back side of the board. I recommend using a heat sink on the LED wires while you solder them, LEDs are very heat sensitive. A length of speaker wire was used to connect the lamp to the power source. The circuit board was connected to the plastic box with one 6- 32 screw and several 6-32 nuts were used as spacers. ALIGNMENT None required USE Connect this circuit to a 12V battery or power supply, it puts out a nice glow. You can read by this light if you use it up close, it could be a good personal reading lamp, although white LEDs would improve the color balance a lot. PARTS 10x green LEDs, T1-3/4 size 9x red LEDs, T1-3/4 size 3x yellow LEDs, T1-3/4 size 2x 100 ohm 1/2 W resistors 1x 56 ohm 1/2 W resistor 1x 62 ohm 1/2 W resistor (can also be 56 ohm, it's what I had on hand) 1x 1/2 Amp 28VDC fuse 1x Plastic box with diffused (blurry) top, I used a 35mm slide box. 1x 6-32 3/8" screw 2x 6/32 nuts PARTS SOURCES Jameco 1-800-831-4242 http://www.jameco.com/ Digi-Key 1-800-DIGIKEY http://www.digikey.com/
---------------------------------------------------------------------- ---------- Back to Fc's Solar Circuits pageThis circuit makes a nice lamp that is low power, runs cool, and has a long lifetime. The lamp puts out a warm yellow shade of light, the color may be adjusted by changing the number of red or green LED strings. SPECIFICATIONS Operating Voltage: 12V DC Operating Current: 80ma approx. THEORY The current flows and the LEDs light. There are 4 series strings of LEDs in this circuit, the resistors limit the current through the LEDs and prevent them from burning up. The resistors were adjusted to get approximately 20ma through each string, different LEDs will have different voltage drops and resulting current flow, these resistor values will work fine at 12V. CONSTRUCTON The circuit was mounted in a plastic 35MM photographic slide box with a translucent plastic top (not shown). I cut a piece of perforated board to fit inside of the slide box, the LEDs and resistors were inserted through the holes in the board and the wires were soldered together on the back side of the board. I recommend using a heat sink on the LED wires while you solder them, LEDs are very heat sensitive. A length of speaker wire was used to connect the lamp to the power source. The circuit board was connected to the plastic box with one 6- 32 screw and several 6-32 nuts were used as spacers. ALIGNMENT None required USE Connect this circuit to a 12V battery or power supply, it puts out a nice glow. You can read by this light if you use it up close, it could be a good personal reading lamp, although white LEDs would improve the color balance a lot. PARTS 10x green LEDs, T1-3/4 size 9x red LEDs, T1-3/4 size 3x yellow LEDs, T1-3/4 size 2x 100 ohm 1/2 W resistors 1x 56 ohm 1/2 W resistor 1x 62 ohm 1/2 W resistor (can also be 56 ohm, it's what I had on hand) 1x 1/2 Amp 28VDC fuse 1x Plastic box with diffused (blurry) top, I used a 35mm slide box. 1x 6-32 3/8" screw 2x 6/32 nuts PARTS SOURCES Jameco 1-800-831-4242 http://www.jameco.com/ Digi-Key 1-800-DIGIKEY http://www.digikey.com/
---------------------------------------------------------------------- ---------- Back to Fc's Solar Circuits pageThis circuit makes a nice lamp that is low power, runs cool, and has a long lifetime. The lamp puts out a warm yellow shade of light, the color may be adjusted by changing the number of red or green LED strings. SPECIFICATIONS Operating Voltage: 12V DC Operating Current: 80ma approx. THEORY The current flows and the LEDs light. There are 4 series strings of LEDs in this circuit, the resistors limit the current through the LEDs and prevent them from burning up. The resistors were adjusted to get approximately 20ma through each string, different LEDs will have different voltage drops and resulting current flow, these resistor values will work fine at 12V. CONSTRUCTON The circuit was mounted in a plastic 35MM photographic slide box with a translucent plastic top (not shown). I cut a piece of perforated board to fit inside of the slide box, the LEDs and resistors were inserted through the holes in the board and the wires were soldered together on the back side of the board. I recommend using a heat sink on the LED wires while you solder them, LEDs are very heat sensitive. A length of speaker wire was used to connect the lamp to the power source. The circuit board was connected to the plastic box with one 6- 32 screw and several 6-32 nuts were used as spacers. ALIGNMENT None required USE Connect this circuit to a 12V battery or power supply, it puts out a nice glow. You can read by this light if you use it up close, it could be a good personal reading lamp, although white LEDs would improve the color balance a lot. PARTS 10x green LEDs, T1-3/4 size 9x red LEDs, T1-3/4 size 3x yellow LEDs, T1-3/4 size 2x 100 ohm 1/2 W resistors 1x 56 ohm 1/2 W resistor 1x 62 ohm 1/2 W resistor (can also be 56 ohm, it's what I had on hand) 1x 1/2 Amp 28VDC fuse 1x Plastic box with diffused (blurry) top, I used a 35mm slide box. 1x 6-32 3/8" screw 2x 6/32 nuts PARTS SOURCES Jameco 1-800-831-4242 http://www.jameco.com/ Digi-Key 1-800-DIGIKEY http://www.digikey.com/
---------------------------------------------------------------------- ---------- Back to Fc's Solar Circuits pageThis circuit makes a nice lamp that is low power, runs cool, and has a long lifetime. The lamp puts out a warm yellow shade of light, the color may be adjusted by changing the number of red or green LED strings. SPECIFICATIONS Operating Voltage: 12V DC Operating Current: 80ma approx. THEORY The current flows and the LEDs light. There are 4 series strings of LEDs in this circuit, the resistors limit the current through the LEDs and prevent them from burning up. The resistors were adjusted to get approximately 20ma through each string, different LEDs will have different voltage drops and resulting current flow, these resistor values will work fine at 12V. CONSTRUCTON The circuit was mounted in a plastic 35MM photographic slide box with a translucent plastic top (not shown). I cut a piece of perforated board to fit inside of the slide box, the LEDs and resistors were inserted through the holes in the board and the wires were soldered together on the back side of the board. I recommend using a heat sink on the LED wires while you solder them, LEDs are very heat sensitive. A length of speaker wire was used to connect the lamp to the power source. The circuit board was connected to the plastic box with one 6- 32 screw and several 6-32 nuts were used as spacers. ALIGNMENT None required USE Connect this circuit to a 12V battery or power supply, it puts out a nice glow. You can read by this light if you use it up close, it could be a good personal reading lamp, although white LEDs would improve the color balance a lot. PARTS 10x green LEDs, T1-3/4 size 9x red LEDs, T1-3/4 size 3x yellow LEDs, T1-3/4 size 2x 100 ohm 1/2 W resistors 1x 56 ohm 1/2 W resistor 1x 62 ohm 1/2 W resistor (can also be 56 ohm, it's what I had on hand) 1x 1/2 Amp 28VDC fuse 1x Plastic box with diffused (blurry) top, I used a 35mm slide box. 1x 6-32 3/8" screw 2x 6/32 nuts PARTS SOURCES Jameco 1-800-831-4242 http://www.jameco.com/ Digi-Key 1-800-DIGIKEY http://www.digikey.com/
---------------------------------------------------------------------- ---------- Back to Fc's Solar Circuits pageThis circuit makes a nice lamp that is low power, runs cool, and has a long lifetime. The lamp puts out a warm yellow shade of light, the color may be adjusted by changing the number of red or green LED strings. SPECIFICATIONS Operating Voltage: 12V DC Operating Current: 80ma approx. THEORY The current flows and the LEDs light. There are 4 series strings of LEDs in this circuit, the resistors limit the current through the LEDs and prevent them from burning up. The resistors were adjusted to get approximately 20ma through each string, different LEDs will have different voltage drops and resulting current flow, these resistor values will work fine at 12V. CONSTRUCTON The circuit was mounted in a plastic 35MM photographic slide box with a translucent plastic top (not shown). I cut a piece of perforated board to fit inside of the slide box, the LEDs and resistors were inserted through the holes in the board and the wires were soldered together on the back side of the board. I recommend using a heat sink on the LED wires while you solder them, LEDs are very heat sensitive. A length of speaker wire was used to connect the lamp to the power source. The circuit board was connected to the plastic box with one 6- 32 screw and several 6-32 nuts were used as spacers. ALIGNMENT None required USE Connect this circuit to a 12V battery or power supply, it puts out a nice glow. You can read by this light if you use it up close, it could be a good personal reading lamp, although white LEDs would improve the color balance a lot. PARTS 10x green LEDs, T1-3/4 size 9x red LEDs, T1-3/4 size 3x yellow LEDs, T1-3/4 size 2x 100 ohm 1/2 W resistors 1x 56 ohm 1/2 W resistor 1x 62 ohm 1/2 W resistor (can also be 56 ohm, it's what I had on hand) 1x 1/2 Amp 28VDC fuse 1x Plastic box with diffused (blurry) top, I used a 35mm slide box. 1x 6-32 3/8" screw 2x 6/32 nuts PARTS SOURCES Jameco 1-800-831-4242 http://www.jameco.com/ Digi-Key 1-800-DIGIKEY http://www.digikey.com/
---------------------------------------------------------------------- ---------- Back to Fc's Solar Circuits pageThis circuit makes a nice lamp that is low power, runs cool, and has a long lifetime. The lamp puts out a warm yellow shade of light, the color may be adjusted by changing the number of red or green LED strings. SPECIFICATIONS Operating Voltage: 12V DC Operating Current: 80ma approx. THEORY The current flows and the LEDs light. There are 4 series strings of LEDs in this circuit, the resistors limit the current through the LEDs and prevent them from burning up. The resistors were adjusted to get approximately 20ma through each string, different LEDs will have different voltage drops and resulting current flow, these resistor values will work fine at 12V. CONSTRUCTON The circuit was mounted in a plastic 35MM photographic slide box with a translucent plastic top (not shown). I cut a piece of perforated board to fit inside of the slide box, the LEDs and resistors were inserted through the holes in the board and the wires were soldered together on the back side of the board. I recommend using a heat sink on the LED wires while you solder them, LEDs are very heat sensitive. A length of speaker wire was used to connect the lamp to the power source. The circuit board was connected to the plastic box with one 6- 32 screw and several 6-32 nuts were used as spacers. ALIGNMENT None required USE Connect this circuit to a 12V battery or power supply, it puts out a nice glow. You can read by this light if you use it up close, it could be a good personal reading lamp, although white LEDs would improve the color balance a lot. PARTS 10x green LEDs, T1-3/4 size 9x red LEDs, T1-3/4 size 3x yellow LEDs, T1-3/4 size 2x 100 ohm 1/2 W resistors 1x 56 ohm 1/2 W resistor 1x 62 ohm 1/2 W resistor (can also be 56 ohm, it's what I had on hand) 1x 1/2 Amp 28VDC fuse 1x Plastic box with diffused (blurry) top, I used a 35mm slide box. 1x 6-32 3/8" screw 2x 6/32 nuts PARTS SOURCES Jameco 1-800-831-4242 http://www.jameco.com/ Digi-Key 1-800-DIGIKEY http://www.digikey.com/
---------------------------------------------------------------------- ---------- Back to Fc's Solar Circuits pageThis circuit makes a nice lamp that is low power, runs cool, and has a long lifetime. The lamp puts out a warm yellow shade of light, the color may be adjusted by changing the number of red or green LED strings. SPECIFICATIONS Operating Voltage: 12V DC Operating Current: 80ma approx. THEORY The current flows and the LEDs light. There are 4 series strings of LEDs in this circuit, the resistors limit the current through the LEDs and prevent them from burning up. The resistors were adjusted to get approximately 20ma through each string, different LEDs will have different voltage drops and resulting current flow, these resistor values will work fine at 12V. CONSTRUCTON The circuit was mounted in a plastic 35MM photographic slide box with a translucent plastic top (not shown). I cut a piece of perforated board to fit inside of the slide box, the LEDs and resistors were inserted through the holes in the board and the wires were soldered together on the back side of the board. I recommend using a heat sink on the LED wires while you solder them, LEDs are very heat sensitive. A length of speaker wire was used to connect the lamp to the power source. The circuit board was connected to the plastic box with one 6- 32 screw and several 6-32 nuts were used as spacers. ALIGNMENT None required USE Connect this circuit to a 12V battery or power supply, it puts out a nice glow. You can read by this light if you use it up close, it could be a good personal reading lamp, although white LEDs would improve the color balance a lot. PARTS 10x green LEDs, T1-3/4 size 9x red LEDs, T1-3/4 size 3x yellow LEDs, T1-3/4 size 2x 100 ohm 1/2 W resistors 1x 56 ohm 1/2 W resistor 1x 62 ohm 1/2 W resistor (can also be 56 ohm, it's what I had on hand) 1x 1/2 Amp 28VDC fuse 1x Plastic box with diffused (blurry) top, I used a 35mm slide box. 1x 6-32 3/8" screw 2x 6/32 nuts PARTS SOURCES Jameco 1-800-831-4242 http://www.jameco.com/ Digi-Key 1-800-DIGIKEY http://www.digikey.com/
---------------------------------------------------------------------- ---------- Back to Fc's Solar Circuits page
-- bala (sangeetha_bala@usa.net), April 18, 2001.
Consider Sampo DVD Player. www.sampousa.com, you can set it to play PAL DVD's too.....
-- abc (a@b.com), July 03, 2001.
hi i am vishal frm indiau guys r searching for dvd players there are atmost all the mojor companes like sony samsung philips e.t.c. u can find all the products to ur nearest electroics shop or web site like sony.co.in etc etc enjoy
-- vishi (itsfakedonot@mail.com), February 07, 2002.
Why do you want to buy a VCD player when VCD is a dying technology. Embrace the new DVD format. Its the best way to go especially as DVD players can also play VCDs. So go on buy a DVD player.SONY,Pioneer,Philips,Panasonic, Samsung are all great but they dont offer the multi-region capabitlities. Try buying it on the net. Look for brand names like Marantz, NAD. They are well known names in Europe and serve people well. I myslef have a Marantz DV4200. It is the best piece of hardwqare I have bought. It was around Euro 250 or thereabouts. Regds
-- Amit Wadhwa (amit@amitwadhwa.com), March 06, 2002.
samsung dvd/vcd system 709 available in North America is reported to have PAL playback capabilities
-- P K (peekayr@yahoo.com), November 18, 2002.
I want pcb pichers plz send my mail id. Thanking you, your tru
-- balaji (bal_rajin@yahoo.com), April 05, 2004.