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Please note that the date mentioned below that the database code was last updated is not the date the data itself was last updated.
Driver List |
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Why use a driver? |
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Driver types overview |
LED Driver List – all LED drivers
An O-ring, Tailcap & Silicone Grease List is also available.
Video Foundry/Aqualab does not sell any of these drivers. Links are provided to resellers. The short URL for this list is www.videofoundry.co.nz/driverlist. See the bottom of the page for my email address. If you're just a spam bot looking for fodder, spam the hell out of these spammers' addresses: spammer address 1, spammer address 2, spammer address 3. They deserve a taste of their own spam.
Note that some sellers are more reliable than others. Inclusion of particular resellers in this list is not an endorsement of them as businesses. Note that Fasttech closed in December 2022 but the drivers are still included for reference.
Jump to: Footnotes & Instructions | AMC7135 notes | PT4105 notes | Schottky diodes.
38 drivers found. Listed by driver name.
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Price
(US$) |
Driver Type Driver Purpose |
Vin
min-max (DC except where noted) |
Number
of LEDs (or LED dice) in series min-max |
Battery Suitability | Efficiency min-max |
Output Current Max current (with just a resistor modification) |
Number of Modes | Size (diameter except where noted) |
Notes | |
1 Channel LED Dimmer Controller |
DealExtreme $5.40 |
User interface driver | 12-24 V | 1-6 | 12 V, 24 V DC | 3000 mA |
1 | 65 mm x 33 mm x 33 mm | Includes DC power socket and plug. | |
1 Channel LED Dimmer Controller |
DealExtreme $8.50 |
User interface driver | 12-24 V | 1-6 | 12 V or 24 V DC | 3000 mA |
1 | 38 mm x 31 mm x 9 mm | ||
1/3/4 LED boost/buck |
Intl Outdoor Store $12.50 |
Boost driver and buck driver | 3.0-18 V | 1-4 | 1-4x Li-ion | 2800 mA |
3 | 26 mm x 17 mm high - two boards in double layer | Driver removed from site. Output current 5 A for 1 LED, 2.6-3.0 A for 3-4 LEDs; apparently not suited for 2 LEDs. Three modes with memory; high, medium (30%), low (5%). PWM frequency 1 kHz. Thermal protection and low voltage warning. |
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2.8A Cree XM-L driver |
Intl Outdoor Store $4.98 |
Buck driver | 6.0-18 V | 1-3 | 2-4x Li-ion | 2800 mA |
3 | 22 mm x 16 mm high - two boards in double layer | Driver removed from site. 3 modes; high, low (20%), strobe. Low soltage protection, reverse polarity protection. Presumably the same as DX sku.57779. |
|
3-mode Double Protection Torch Circuit Driver V9 |
CN Quality Goods $12.00 + shipping |
Step-down (non-buck) driver | 5.5-15 V | 1 | 3000 mA |
1 | 21 mm x 12 mm high - two boards in double layer | Top board diameter 19 mm. PWM frequency 700 Hz. Thermal protection. Low voltage protection (I think that's what "run multhium battery protection" means). | ||
30W Boost/Buck |
KaiDomain $14.99 |
Boost driver and buck driver | 3.0-18 V | 1-4 | 2-4x Li-ion | 2800 mA |
5 | 26 mm x 17mm high - two boards in double layer | Output current varies from claimed 5 A for 1 LED (which disagrees with the claimed 8-10 W) to 3 A for 3-4 LEDs. However, 2.8 A is also claimed by sales staff answering two separate thread questions - buyer beware. 5 modes with memory; high, medium, low (no mention of ratios/duty cycle), strobe, SOS. Low voltage protection at 5.7 V, thermal protection (heatsinking possibly required). | |
30W Boost/Buck |
KaiDomain $14.99 |
Boost driver and buck driver | 3.0-18 V | 1-4 | 2-4x Li-ion | 2800 mA |
3 | 26 mm x 17mm high - two boards in double layer | Output current varies from claimed 5 A for 1 LED (which disagrees with the claimed 8-10 W) to 3 A for 3-4 LEDs. However, 2.8 A is also claimed by sales staff answering a thread question - buyer beware. 3 modes with memory; low, medium, high (no mention of ratios/duty cycle). Low voltage protection at 5.7 V, thermal protection (heatsinking possibly required). | |
3A buck driver |
FastTech $7.97 |
Buck driver | 5.5-15 V | 1 | 2-3x Li-ion | 3000 mA |
5 | 21 mm x 10 mm high - two boards in double layer | 5 modes with memory; low (10%), medium (50%), high (100%), strobe, SOS. Disappointingly slow PWM frequency, 122 Hz. Low voltage warning and protection. | |
3A Circuit Driver for Bike Light |
KaiDomain $12.99 |
Buck driver | 6.0-15 V | 1 | 3000 mA |
1 | 26 mm x 14mm high - two boards in double layer | Thermal protection. | ||
3A, 3 mode driver |
KaiDomain $25.66 for 5 |
Buck driver | 8.4-12 V | 1 | 3000 mA |
1 | Said to be suitable for Cree XM-L. Probably the same as DX sku.57779. Formerly product ID 11384. |
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3A, 3 mode driver |
DealExtreme $5.79 |
Buck driver | 6.0-18 V | 1-3 | 71-91% | 2800 mA |
3 | 22 mm x 14 mm high - two boards in double layer | 3 modes; high, low, fast strobe. Regulation appears to be reasonably good. Modification for single mode and test results for 1 to 3 LEDs are on CPF here. An alternative is DX sku.128269. | |
3A, 3 mode LED driver |
ledsupermall.com $6.60 |
Buck driver | 5.5-15 V | 1 | 90-95% | 3000 mA |
3 | 19 mm x 8 mm high | 3 modes; low (10%), high, medium (35%). Recommended use with maximum 12 V input. | |
3A, 3 mode LED driver |
ledsupermall.com $5.10 |
Buck driver | 8.4-12 V | 1 | 3000 mA |
3 | 22 mm x 14 mm high - two boards in double layer | Incomplete specs - buyer beware. Possibly the same as DX sku.57779 (which is cheaper). Size listed here assumes that. | ||
5 LED boost |
Intl Outdoor Store $14.47 |
Boost driver | 6.0-12 V | 5 | 2-3x Li-ion | 2800 mA |
3 | 26 mm x 30 mm high - two boards in double layer | Driver removed from site. Output voltage about 17 V. Three modes; high, medium (30%), low (5%). Thermal protection, low voltage warning. |
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7 LED boost |
Intl Outdoor Store $17.47 |
Boost driver | 6.0-12 V | 7 | 2-3x Li-ion | 2800 mA |
3 | 26 mm x 30 mm high - two boards in double layer | Driver removed from site. Output voltage about 23 V. Three modes; high, medium (30%), low (5%). Thermal protection, low voltage warning. |
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9 LED boost |
KaiDomain $19.98 |
Boost driver | 9-12 V | 9 | 3x Li-ion | 2600 mA |
3 | 26 mm x 30 mm high - two boards in double layer | Output voltage 30 V. Output current variously stated to be 2.6-3.0 A and 2.8-3.0 A, and output power 70-100 W when running on 3-4x Li-ion cells (which contradicts the claimed input voltage range); buyer beware. Input current can be up to 8 A. 3 modes; high, medium (30%), low (10%). Low voltage warning at 9 V (although a working minimum of 6 V is also stated). Thermal protection at 55-60 °C (this seems very low). | |
9 LED boost driver |
KaiDomain $20.38 |
Boost driver | 6.0-12 V | 9 | 3-4x Li-ion | 2600 mA |
5 | 26 mm x 30 mm high - two boards in double layer | Output current variously stated as 2.6-3.0 A and 2.8-3.0 A. Output voltage 30 V (range unknown). 5 modes; high (100%), medium-high (75%), medium (50%), low (30%), very low (5%) (no strobe!). Thermal protection, low voltage warning at 9 V. | |
Assembled Shark Buck with Remora UI |
Sandwich Shoppe $59.00 + shipping |
Buck driver | 5.0-15 V | 1-3 | 75-77% | 3000 mA |
4 | 19 mm | Multimode high current buck driver. Available in two flavours - three mode Plain (low, medium, high) and four mode Special (with SOS). For some strange reason complete specifications are not readily available but some more information is available in this thread, where Wayne says you can drive "maybe 4" LEDs. (I can't see any explanation why the efficiency graph shows values 2% higher than the table.) | |
Black Power v2 |
PCB Components $34.00 (approx) |
Buck driver | 7.5-33 V | 1-6 | 92% | 2800 mA |
1 | 28 mm | 1.5 V overhead. External on/off input. Soft start. Efficiency claimed is maximum; typical efficiency unknown. Thermal protection. | |
Cree MC-E, Seoul P7 driver |
KaiDomain $10.11 each, also available in 5 pack |
Buck driver | 5.5-15 V DC; also works with AC | 1 | 2800 mA |
3 | 19 mm | Three modes at high, medium (30%), low (10%). Its only reviewer says it needs heatsinking or it will burn out. Buyer beware. Formerly product ID 5595. Also available in a 5 pack, S006371 (formerly product ID 6282). |
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Fulree 2203 adj CV supply |
DealExtreme $6.40 |
Unspecified driver type | 3.0-22 V | 1-5 | 12 V DC | 3000 mA |
1 | 31 mm x 25 mm x 20 mm | This is a constant voltage power supply, not a constant current LED driver, and is only included because it looks like an LED driver. LEDs should be driven with something to limit the current, such as a resistor. Output voltage 1-15 V. Input needs to be at least 2 V greater than output. | |
hipCC |
TaskLED $24.00 + shipping |
Buck driver | 4.5-25 V | 1-5 | 77-97% | 2800 mA |
1 | 28 mm | Limited supply. Buck regulator. Constant current output 2.8 A. Headroom 0.5 V. Thermal protection, polarity protection. Single mode but can be driven using a separate PWM driver. | |
hipFlex v1.1A |
TaskLED $35.00 + shipping |
Buck driver | 4.5-24 V | 1-6 | 73-95% | 2800 mA |
1 | 36 mm | Buck regulator, can drive up to 22 V of series connected LEDs. Constant current output user reconfigurable at any time to 1.0/1.4/2.0/2.4/2.8 A. Headroom 0.5 V @ 2.8 A. Thermal protection, polarity protection. | |
JH-002A |
DealExtreme $3.93 |
MR16 (buck) driver | 10-20 V | 3 | 3000 mA |
1 | 75 mm x 10 mm x 6 mm | Output voltage 9.0-9.5 V. Dimmable, 1.5-5.0 V control signal. Buyer beware - claims to be a boost driver, and output current is suspect. | ||
LDV9 |
LCK-LED $9.45 + shipping |
Buck driver | 5.5-15 V (preferred less than 12 V) |
1 | 90-95% | 2800 mA |
3 | 19 mm | Three modes - low (5%), high (100%), medium (35%). Switches to low mode on over-temperature. Output claimed to be constant current and either 3.0 amps or 2.8 amps. Input variously listed at 5.5-15 V (with <12 V preferred), 5.5-13.2 V, and 4.0-12.0 V. 90-95% efficient seems to be the default claim by this retailer. The claim to provide 1+ hours of 3 A output from four Eneloop cells is clearly false for a Cree MC-E or SSC P7. With a LED Vf of 3.4 V (MC-E) that's 10.2+ Wh output from less than 8.5 Wh input (Eneloop @ 2.25 A, assumed driver 95% efficient for estimating battery voltage under load). This also raises doubt about the constant current claim. Buyer beware. | |
MC-E/P7 bad driver |
KaiDomain $12.18 |
Buck driver | 5.5-15 V | 1 | 76-83% | 2800 mA |
1 | 17 mm double sided board (formerly 19 mm) | It's hard taking KD's site seriously when so many random colours and sizes of text is used to describe the board, with missing graphics liberally distributed as well. (The site has since been updated.) Inconsistent specifications, with output current listed as 2.8 A and 3.0 A and input voltage listed as 5.5-15 V and 4.0-12.0 V. Three mode; low (5%), high (100%), medium (35%) - also listed as high (2.8 A), medium (1.38 A [49%]), low (0.25 A [9%]). The runtimes given don't stack up. There are two versions (with 3 and 5 modes) which look identical and either might be sent to fill an order. Buyer beware. This driver gets a bad review here. StefanFS here says it gets really hot with 8 AA cells, while CM here calculates over 2 W of heat dissipated in high mode - toasty - while showing the claimed 90-95% efficiency is imaginary. Appears to be the same as e-lectronics sku 464. Formerly product ID 1866. |
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MC-E/P7 driver, 5 mode |
KaiDomain $8.18 each |
Buck driver | 5.5-12 V | 1 | 3000 mA |
5 | 19 mm | Uses PWM for 5 modes; low (10%), medium (50%), high (100%), fast strobe, SOS. If driving a Cree MC-E its four dice must be parallel connected. Also available as a 5 pack. Both product pages have photos of two different drivers. Buyer beware. This driver gets a bad review here. Formerly product ID 7947. |
||
Micro 2800 |
PCB Components $29.00 (approx) |
Buck driver | 5.0-18 V | 1-4 | 94% | 2800 mA |
1 | 23 mm | 1 V overhead. Efficiency claimed is maximum; typical efficiency unknown. Report from a reader: "I have tested it [for] hundreds hours, no problems and no need to heatsink for 2 LEDs with 9 V." | |
P7 or MC-E driver, 3 mode |
KaiDomain $7.99 |
Buck driver | 5.5-12 V | 1 | 3000 mA |
3 | 19 mm | 3 modes; low (10%), medium (50%), high (100%). Formerly product ID 10973. |
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PowerLine Constant Current Power Supply, |
Led-Tech $21.00 (approx) |
Linear regulator | 7.0-30 V (actual permitted V over total LED Vf varies) |
1-8 | 46-96% | 2800 mA |
1 | 63 mm x 21 mm x 33 mm | Linear regulator with a heatsink, available in six versions providing 350 mA, 700 mA, 1000 mA, 1.4 A, 2.0 A and 2.8 A. Large input voltage range (the minimum input voltage of 1 V is assumed) but input voltage must be at least 1 volt above output voltage and a maximum of 22, 13, 9, 7, 6 or 4 V above output voltage for the respective versions. The mention of PWM is believed to mean this driver can be used with a separate PWM driver, not that this driver uses PWM. Has thermal protection and output short circuit protection. Â Also available in SLIM versions which lack the heatsink and so have tighter input voltage tolerances. |
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PowerLine SLIM Constant Current Power Supply, |
Led-Tech $18.00 (approx) |
Linear regulator | 1.0-30 V (actual permitted V over total LED Vf varies) |
1-8 | 63-96% | 2800 mA |
1 | 50 mm x 7 mm x 15 mm | Linear regulator, available in eight versions providing 180 mA, 350 mA, 500 mA, 700 mA, 1000 mA, 1.4 A, 2.0 A and 2.8 A. Large input voltage range (the minimum input voltage of 1 V is assumed) but input voltage must be at least 1 volt above output voltage and a maximum of 10, 10, 7, 5, 4, 3, 2.5 or 2 V above output voltage for the respective versions. The mention of PWM is believed to mean this driver can be used with a separate PWM driver, not that this driver uses PWM. Has thermal protection and output short circuit protection. Â Also available in non-SLIM versions which have a heatsink, allowing better heat dissipation and wider input voltage tolerance. |
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PS-SP12118, 5V 3A DC-DC Converter Board |
Sure Electronics $5.99 + shipping |
Step-down (non-buck) driver | 5.0-24 V | 0 | 12 V automotive | 3000 mA |
1 | 83 mm x 51 mm x 16 mm | This is a DC-DC converter using an LM2596 with a constant 5 V output, not a current controlled LED driver. The maximum output current is 3 A. | |
Seoul P7 3-mode UI Driver board |
e-lectronics.net $12.25 + shipping |
Buck driver | 5.5-12 V | 1 | 2x Li-ion | 76-83% | 3000 mA |
3 | 17 mm double sided board | Driver has vanished from site. Buck driver using PWM for modes. Three modes; low (5%), medium (35%) and high (100%), includes mode memory. Not constant current (the output changes with input voltage) but is claimed to push a SSC P7 "very hard" and thus needs good heatsinking. Thermal protection may have been removed in the latest version. Appears to be the same as KD sku S005296. |
Shark Buck |
Sandwich Shoppe $27.00 + shipping |
Buck driver | 5.0-15 V | 1-3 | 75-79% | 3000 mA |
1 | 19 mm | Three versions available (different set resistors), with output current set to 1 A, 2 A and 3 A. For some strange reason complete specifications are not readily available but some more information is available in this thread, where Wayne says you can drive "maybe 4" LEDs. (I can't see any explanation why the efficiency graph shows values 2% higher than the table.) | |
CPF member $35.00 (approx) |
Buck driver | 4.2-20 V | 1 | 2800 mA |
6 | 25 mm x 11 mm high | Available directly from a CPF member. There is a single mode version (€20), a 4-mode version (100%, 70%, 25%, 3%) and a 6 mode version (as 4 mode plus Fade in/out, Strobe). External momentary switch needed to change modes, not included. Sadly the specs are not all in one place, but it appears it may be able to cope with more than one LED, has a mode memory, and has a typical efficiency of about 85%. | |||
XHP50 or XM-L driver, 5 mode |
FastTech $3.20 |
Step-down (non-buck) driver | 7.0-15 V | 2 | 2-4x Li-ion | 3000 mA |
5 | 22 mm | 5 modes in Impractical Reverse Order; high, medium, low, strobe, SOS. A review says the actual output current is 2.5A. | |
XHP50 or XM-L driver, dimmable |
FastTech $3.20 |
Buck driver | 7.0-15 V | 2 | 2-4x Li-ion | 3000 mA |
1 | 22 mm | A review for the 5 mode version (FT 7492700) says the actual output current is 2.5A. Unknown if the driver is actually dimmable as claimed in the title. | |
XM-L Multi-cell Circuit Board |
Intl Outdoor Store $9.95 |
Buck driver | 5.5-12.6 V | 1-3 | 2-3x Li-ion | 3000 mA |
3 | 21 mm x 15 mm high | Driver removed from site. Three modes; high, medium (30%), low (5%). PWM rate 3.9 kHz. Thermal protection, low voltage protection; flashes to indicate both of these. |
Notes
Footnotes & Instructions
|
Notes on AMC7135 linear regulator (click to expand/contract)
The AMC7135 (datasheet) is a linear regulator, which means it acts like a variable resistor changing its value to try to keep the current constant. Like a resistor, any dropped voltage is burnt off as heat. Boards include a polarity protection diode and can easily be PWM-driven for lower modes.
Vin must be at least 0.12 V above Vf of LED to stay in regulation, although they drop out of regulation quite gracefully, not suddenly. The graph in the AMC7135 datasheet (Jan 2006) has the 0.1 and 1 volt vertical lines missing. Each AMC7135 provides constant current, about 1/3 amp (actually 300-380 mA depending on particular version; I've generally assumed 330-335 mA for above listings). Boards come with one to eight AMC7135s, and single mode up to 20 mode. Boards can be paralleled to give greater output, or connected with one multimode board controller providing the modes for several boards.
The AMC7135 is very efficient when input voltage is close to output voltage but not particularly good when input voltage is significantly higher. Average efficiency for 3x NiMH or 1x Li-ion can be well over 90% with an LED with the right Vf. Test results and discussion for 3 and 4 chip boards.
Since the AMC7135 just burns off excess input volts as heat, the more volts fed into them the hotter they'll get. One guy claimed that his got so hot they slid right off the board (ie, >183-190 °C melting range of 60/40 solder). The AMC7135 has built-in thermal protection (which will cause dropouts or a flickering effect if it gets too hot) but the multi-mode control chips used on the multi-mode boards are much less rugged. (And here.) If using with an input voltage above 4.5 V or so you can expect them to get hot!
To get multiple modes typical microcontrollers used are the Atmel ATtiny13 (or 13A or 13V) and the Microchip PIC12F629. These both have a 5.5 V maximum, while the AMC7135 linear regulator has a 6.0 V maximum. This means that multimode drivers will have a slighty lower maximum voltage than single mode boards.
Tip 1: To get reliable operation at low voltages, especially with only one AMC7135 chip being used, you may need to short out (and maybe remove) the polarity protection diode(s)*. This is because the AMC7135 in series with a polarity protection diode needs a minimum 2.7 V + 0.6 V (silicon diode) = 3.3 V to stay in regulation. The Vf of LEDs at 330-350 mA can easily be quite a bit lower than 3.3 V so will not be running in regulation. Note that if a germanium or Schottky diode was used the drop could be as low as 0.3 V instead of 0.6 V.
* However, I found with one multimode board this caused the board to go unstable (don't know exactly why) but I found that inserting a small value resistor instead of the diode was enough to get the driver stable again. Because the drive current through that point in the circuit is so low (6 mA for mine) there's very little voltage drop across the resistor - much less than across the diode - so it still serves the purpose of saving ~0.6 V.
Tip 2: If the input voltage is too high you may be able to use another LED in series with the board to drop the voltage - it beats burning it all off as heat. (The set current is <1 mA for single mode boards so both LEDs will get practically identical current. Diagrams and much discussion of use with multiple Seoul P7s and multi-mode boards.) More than one extra LED appears to be not a good idea for use with the lower modes of multi-mode boards since the Vf of the extra LEDs decreases too much at the low current to protect the driver from the battery voltage. (Many of the multi-mode boards have a capacitor on the output.) Flashing modes appear unsuited to this technique.
AMC7135-based driver options are discussed here, or an inexpensive multimode AMC7135 driver here.
Notes on PT4105 and alternative driver chips (PT4115, AX2002, CL6807) (click to expand/contract)
PT4105 (datasheet):
Production of this driver IC - as used in the Kennan and MR16 base drivers described above - has been terminated. The manufacturer doesn't even have a publicly displayed link to the datasheet any more, which is the weirdest part of it. This from Micro Bridge (now removed from their site; try to ignore the punctuation and spacing):
The PT4105 which the manufacture has already officially stopped producing,and the subsequent instead item is the PT4115,AX2002 and FP6101 Also,The PT4115,AX2002 and FP6101 has superior performance over ,wider input range and more current than the PT4105.
PT4115 (datasheet):
While I look forward to the PT4115 being available in low cost LED drivers (by its numbering the apparent successor to the PT4105), I note that it needs an input of at least 8 V (and has under voltage lock out at 6.8 V), so isn't nearly as well suited to low voltage torches as the PT4105 was. It will, however, have its uses for 3x Li-ion torches and automotive purposes. The chip has a DIM pin which gives it the ability to very easily be dimmed. Efficiency is about 80-82% for 1 LED, up to 93% for 3 LEDs, and apparently up to 98% for 7 LEDs. Maximum output current 1.2 A.
AX2002 (datasheet):
This driver chip from AXElite looks extremely interesting. It will accept a minimum 3.6 V input and has a maximum switched current of 2.5 A, although it tends to overheat at more than 2 A. It includes thermal protection (140°C), over current protection, short circuit protection, and has a PWM control circuit. Its efficiency is good too, with an output of 2 A @ 5 V it's an impressive 91% efficient (with 12 V input). Driving a Cree XR-E at 1 amp will give an efficiency of about 87-88% (with 12 V input). Efficiency is not quite as good at low currents with a single LED, dropping under 80%.
AX2002 drivers can also easily be configured as a constant voltage power supply. The load is connected straight to ground and the 0.25 V reference voltage is used to control a voltage divider with a couple of moderately high value resistors to give a fixed multiple of 0.25V at VOUT.
For example, for 5 V, 5 = 20 * 0.25, so a 10 kΩ resistor is placed between ground and FB (the feedback pin), and a 190 kΩ resistor between FB and VOUT (making the total of those resistors between VOUT and ground of 200 kΩ).
When used in this way, to give stability the current through the resistors probably just needs to be comfortably greater than the feedback pin bias current of (0.1 µA typical, 0.5 µA maximum). If two exact resistor values for the voltage divider are not available it's easiest to use a single resistor for the sense resistor (between ground and FB), while the other value (between FB and VOUT) uses two resistors in series or parallel. For series, one of those two resistors will be as close as possible to the desired value, and just under it, while the other will be a much smaller resistor to tweak the total resistance up for the output voltage wanted. For parallel, the main resistor is just over the actual value wanted while the other resistor with about ten times the resistance tweaks the total resistance down. If that resistor is getting into megaohms you should probably revise your values.
Some AX2002 drivers (
such as DX 3256sadly no longer an AX2002 driver) come with a 1 A Schottky diode, which will need to be changed if increasing the output current over 1 A. See the Schottky diode notes below for links.AX2003 (datasheet):
The AX2002 also has a big brother, the AX2003, which has a maximum switched current specification of 4 amps – easily enough to drive a Seoul P7, or a Cree MC-E with the dice in parallel. No drivers with the AX2003 are presently known. The spec sheets of the AX chips could do with a few more graphs showing how constant the output current is, etc.
FP6101 (datasheet): Not an LED driver.
CL6807 (datasheet):
Chinese LED driver, 1 A maximum output current, 6-35 V input, 0.1 V high side sense voltage. Claims to be able to provide up to 35 W output power. Dimmable with 0.5-2.5 V PWM signal.
So there are some nice driver chip options, but it still leaves a gap of a high efficiency, really low voltage, low current driver.
Notes on Schottky diodes (click to expand/contract)
Schottky diodes are diodes that have a low voltage drop across them. 0.3 V is a typical figure, compared to around 0.60-0.65 V for a typical silicon diode. This makes Schottky diodes good for rectifiers and LED drivers where high efficiency is required. Drivers that use the AX2002 such as DX 3256 can easily be modified for higher output current but the Schottky diode needs to be replaced if the output current is to exceed 1 A.
Inexpensive Schottky diodes are available from these sources:
- These MR16 drivers have four 1 A (SS14) Schottky diodes on them used for the rectifier plus another for the driver (links jump to driver info in table above):
- SR260 60V 2A Schottky Diodes Set (10 pcs).
- Common Use Axial Schottky / Fast Recovery / Fast Switching / Rectifier Diodes (220 piece pack):
- 20 x 1N4001 Rectifier diodes
- 20 x 1N4004 Rectifier diodes
- 20 x 1N5399 Rectifier diodes
- 20 x 1N4007 Rectifier diodes
- 50 x 1N4148 Fast switching diodes
- 10 x 1N5408 Rectifier diodes
- 20 x 1N5819 Schottky barrier diodes
- 10 x 1N5822 Schottky barrier diodes
- 20 x FR107 Fast recovery diodes
- 20 x FR104 Fast recovery diodes
- 10 x FR207 Fast recovery diodes
- 1N5822 3 Amps 40V Schottky Barrier Rectifier Diodes 20-pack (if you want to risk that site).
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