Originally posted by RobynS on 6-7-07, HERE.
We have been getting a lot of questions/emails regarding our new light - below are some specifications etc. I tried to upload some pictures etc, but they don't want to show up - if anybody can tell me what I am doing wrong, I would appreciate it.
The Beta testers have been chosen and will be notified privately and will be receiving their test units by the middle of next week.
These lights will be available within the next few weeks.
Have a great evening!
Robyn
FIRST RESPONDER LED FLASHLIGHT INSTRUCTIONS
This is a high performance 9 watt output 3 LED flashlight designed for the requirements of the Military or Law Enforcement Industry. The most powerful, smallest and lightest weight combat LED flashlight available.
Features:
• Machined from Aircraft Quality Aluminum
• Small and light weight
• Epoxy sealed head
• Water and Shock resistant
• Adjustable power output
• Over 400 Lumens of light output
• 9 Different battery combinations
• Multiple grip options
• Replaceable components
• Wrist strap attachment point
• Upgradeable LED module
• Water proof tail switch
• Black hard anodized surfaces
• Unequaled light output
• Unbreakable lens
• Unique battery management system
Specifications:
• 7-1/2 Inches long
• 6-1/2 ounces with batteries (2 x CR-123A)
• 2 to 8-1/2 volt battery supply
• ½ to 9 watts adjustable output
Battery Combinations:
• 2 x AA NiMH rechargeable 1.2 volts each
• 2 x AA Alkaline primary 1.5 volts each
• 2 x AA Lithium primary 1.6 volts each
• 2 x AA Lithium primary 3.6 volts each
• 2 x AA Lithium-Ion rechargeable 3.6 volts each
• 2 x CR-123A Lithium primary 3.0 volts each
• 1 x 17650 Lithium-Ion rechargeable 3.6 volts
• 1 x 18650 Lithium-Ion rechargeable 3.6 volts
• 2 x RCR-123 Lithium-Ion rechargeable 3.6 volts each
Never mix battery chemistries or types
Battery installation:
Unscrew the battery compartment from the finned head. When using the AA size batteries remove the insulated spacer from the battery compartment. With other battery types the spacer must be inserted first before installing the battery(s). Install battery sets with the positive end toward the head. Screw the battery compartment back onto the head until it stops against the head with about 6 ounce inches of torque. Do not mix battery types, catastrophic failure of one or both batteries could occur. The battery management system will recognize battery capacity of the different types of battery sets. This limits the maximum light output through the primary inductor to prevent the overload and premature battery failure of low output capacity batteries.
Activation:
The tail switch turns the First Responder LED on or off by pushing in the back of the black rubber switch cover towards the head of the flashlight until a click is heard and then releasing. A slight push on the switch when the flashlight is off, and then releasing pressure, will momentarily cause the light to turn on and then off. This can be done rapidly to cause a strobe effect. The light output control on the head of the flashlight can be used to vary the intensity of the light from a low level of about one-half watt of power, to the maximum allowed by the type of battery set installed. This can be done with thumb pressure by rotating the control clockwise to increase or counter-clockwise to decrease light output. In the full counter-clockwise position, there will be no light output. The flashlight will still be active and using battery power, this does not turn off the flashlight.
Holds and Grips:
The design of the battery compartment allows for three different holds, depending on operational requirements. The body has been knurled to provide a medium grip with a deep groove close to the tail switch. A very aggressive knurl or other type of heavy grooving or ribs may hinder removal of the flashlight from a pouch or holster, and can be painful to hold onto for very long periods of time. Either the forefinger or the pinky finger naturally falls into the deep groove and provides sufficient grip to prevent movement.
The first hold is a four finger grip with the thumb on the light output control. This is the way that most flashlights are held in normal situations. The thumb can then adjust the light output and the flashlight can be turned off or on by striking the tail switch against the breast plate of the bullet proof vest.
The second hold is also a four finger wrap but in this case the thumb is in position to activate the tail switch. This can use the Harries combat handgun hold, (crossed wrist), the Neck Index position or the FBI position. It is recommended that the light output control be always left in the maximum power position when carried in a duty belt or holster.
The third hold is the split finger combat grip, sometimes referred to as a Rogers hold or by other names. This is done by using the deep groove near the tail switch, and placing the groove between the forefinger and the middle finger. The tail switch is activated by the heel of the palm at the base of the thumb. The Coast Guard search hold also uses this method.
Wrist Strap Attachment Point:
A stainless steel ring has been provided on the head opposite the light output control for attaching a wrist strap. This allows the flashlight to hang free when not needed but be in a position to be used instantly. The position has been designed so that by quickly moving the hand upwards to the shoulder area the flashlight will automatically fall into an open hand. The tail switch can then be activated with the thumb for Neck Index or the FBI position holds and the crossed wrist Harries handgun technique.
Power Output and Batteries:
With most high power LED flashlights, special expensive and unique batteries must be used. And some do not have replaceable batteries, once depleted the flashlight is out of service until the battery is recharged. The First Responder LED flashlight has been designed to use common low cost batteries. Maximum output of up to nine watts of power is generated with a battery set that has a total of 7.2 volts. We recommend the use of a pair of RCR-123 rechargeable Lithium-Ion 3.6 volt batteries. These are common high performance low cost units with very good power output capability. The battery charger for the RCR-123 batteries will work in either a car or a 120 volt AC wall outlet. The First Responder will operate at a reduced light output level of 2 watts with inexpensive 1-1/2 volt Alkaline AA size batteries. 2-1/2 watts with a single 3.6 volt Lithium-Ion battery and 7 watts with two 3 volt CR-123 Lithium batteries.
Most applications do not require maximum output power and the output control may be adjusted to ¼ of full power or less to extend battery run time. At a setting of ½ power, the First Responder produces more light than single LED completive flashlights at full power. Because of the small physical size of the First Responder LED flashlight and very high watt output, heat generated can become excessive. It is recommended that the maximum output of 9 watts be limited to 15 consecutive minutes, 7 watts or less continuous. An optional finned heat sink extension will be available for retrofit between the LED module and the electronics compartment. This will extend the length of the flashlight by one inch for longer maximum power applications.
Upgradeable and replacement parts:
The design of the First Responder LED flashlight allows for upgrading the LED module to the latest advancement of LED technology as it becomes available. This insures that the First Responder always remains as bright as the latest flashlight without having to purchase a new one. Other component parts are replaceable including the plastic lens, led reflectors, battery compartment, tail switch and the anodized parts shown below if damaged.
The Law Enforcement Special First Responder LED flashlight has been designed for ease of maintenance and versatility. The First Responder is made with only the best materials and electronics for unequaled reliability. With the LEDs and electronics sealed in epoxy the flashlight is both water and shock resistant to the rugged conditions of field duty operations. With the ability to use different inexpensive common battery types and a variable light output, the First Responder can keep working when others have exhausted their special expensive batteries.
In a side-by-side comparison with a well known competitive 225 Lumen output incandescent bulb flashlight powered with 3 CR-123A batteries, the 3 LED 9 watt First Responder with 2 CR-123A batteries produced twice the light output with 3 to 4 times the side spill and ran for three times longer. The beam quality of the First responder was superior with no rings or other visible beam artifacts, and with a brighter and wider center hot spot and a clean white output color. At 200 feet the First Responder will light up the area between two houses close to daylight conditions.
We have been getting a lot of questions/emails regarding our new light - below are some specifications etc. I tried to upload some pictures etc, but they don't want to show up - if anybody can tell me what I am doing wrong, I would appreciate it.
The Beta testers have been chosen and will be notified privately and will be receiving their test units by the middle of next week.
These lights will be available within the next few weeks.
Have a great evening!
Robyn
FIRST RESPONDER LED FLASHLIGHT INSTRUCTIONS
This is a high performance 9 watt output 3 LED flashlight designed for the requirements of the Military or Law Enforcement Industry. The most powerful, smallest and lightest weight combat LED flashlight available.
Features:
• Machined from Aircraft Quality Aluminum
• Small and light weight
• Epoxy sealed head
• Water and Shock resistant
• Adjustable power output
• Over 400 Lumens of light output
• 9 Different battery combinations
• Multiple grip options
• Replaceable components
• Wrist strap attachment point
• Upgradeable LED module
• Water proof tail switch
• Black hard anodized surfaces
• Unequaled light output
• Unbreakable lens
• Unique battery management system
Specifications:
• 7-1/2 Inches long
• 6-1/2 ounces with batteries (2 x CR-123A)
• 2 to 8-1/2 volt battery supply
• ½ to 9 watts adjustable output
Battery Combinations:
• 2 x AA NiMH rechargeable 1.2 volts each
• 2 x AA Alkaline primary 1.5 volts each
• 2 x AA Lithium primary 1.6 volts each
• 2 x AA Lithium primary 3.6 volts each
• 2 x AA Lithium-Ion rechargeable 3.6 volts each
• 2 x CR-123A Lithium primary 3.0 volts each
• 1 x 17650 Lithium-Ion rechargeable 3.6 volts
• 1 x 18650 Lithium-Ion rechargeable 3.6 volts
• 2 x RCR-123 Lithium-Ion rechargeable 3.6 volts each
Never mix battery chemistries or types
Battery installation:
Unscrew the battery compartment from the finned head. When using the AA size batteries remove the insulated spacer from the battery compartment. With other battery types the spacer must be inserted first before installing the battery(s). Install battery sets with the positive end toward the head. Screw the battery compartment back onto the head until it stops against the head with about 6 ounce inches of torque. Do not mix battery types, catastrophic failure of one or both batteries could occur. The battery management system will recognize battery capacity of the different types of battery sets. This limits the maximum light output through the primary inductor to prevent the overload and premature battery failure of low output capacity batteries.
Activation:
The tail switch turns the First Responder LED on or off by pushing in the back of the black rubber switch cover towards the head of the flashlight until a click is heard and then releasing. A slight push on the switch when the flashlight is off, and then releasing pressure, will momentarily cause the light to turn on and then off. This can be done rapidly to cause a strobe effect. The light output control on the head of the flashlight can be used to vary the intensity of the light from a low level of about one-half watt of power, to the maximum allowed by the type of battery set installed. This can be done with thumb pressure by rotating the control clockwise to increase or counter-clockwise to decrease light output. In the full counter-clockwise position, there will be no light output. The flashlight will still be active and using battery power, this does not turn off the flashlight.
Holds and Grips:
The design of the battery compartment allows for three different holds, depending on operational requirements. The body has been knurled to provide a medium grip with a deep groove close to the tail switch. A very aggressive knurl or other type of heavy grooving or ribs may hinder removal of the flashlight from a pouch or holster, and can be painful to hold onto for very long periods of time. Either the forefinger or the pinky finger naturally falls into the deep groove and provides sufficient grip to prevent movement.
The first hold is a four finger grip with the thumb on the light output control. This is the way that most flashlights are held in normal situations. The thumb can then adjust the light output and the flashlight can be turned off or on by striking the tail switch against the breast plate of the bullet proof vest.
The second hold is also a four finger wrap but in this case the thumb is in position to activate the tail switch. This can use the Harries combat handgun hold, (crossed wrist), the Neck Index position or the FBI position. It is recommended that the light output control be always left in the maximum power position when carried in a duty belt or holster.
The third hold is the split finger combat grip, sometimes referred to as a Rogers hold or by other names. This is done by using the deep groove near the tail switch, and placing the groove between the forefinger and the middle finger. The tail switch is activated by the heel of the palm at the base of the thumb. The Coast Guard search hold also uses this method.
Wrist Strap Attachment Point:
A stainless steel ring has been provided on the head opposite the light output control for attaching a wrist strap. This allows the flashlight to hang free when not needed but be in a position to be used instantly. The position has been designed so that by quickly moving the hand upwards to the shoulder area the flashlight will automatically fall into an open hand. The tail switch can then be activated with the thumb for Neck Index or the FBI position holds and the crossed wrist Harries handgun technique.
Power Output and Batteries:
With most high power LED flashlights, special expensive and unique batteries must be used. And some do not have replaceable batteries, once depleted the flashlight is out of service until the battery is recharged. The First Responder LED flashlight has been designed to use common low cost batteries. Maximum output of up to nine watts of power is generated with a battery set that has a total of 7.2 volts. We recommend the use of a pair of RCR-123 rechargeable Lithium-Ion 3.6 volt batteries. These are common high performance low cost units with very good power output capability. The battery charger for the RCR-123 batteries will work in either a car or a 120 volt AC wall outlet. The First Responder will operate at a reduced light output level of 2 watts with inexpensive 1-1/2 volt Alkaline AA size batteries. 2-1/2 watts with a single 3.6 volt Lithium-Ion battery and 7 watts with two 3 volt CR-123 Lithium batteries.
Most applications do not require maximum output power and the output control may be adjusted to ¼ of full power or less to extend battery run time. At a setting of ½ power, the First Responder produces more light than single LED completive flashlights at full power. Because of the small physical size of the First Responder LED flashlight and very high watt output, heat generated can become excessive. It is recommended that the maximum output of 9 watts be limited to 15 consecutive minutes, 7 watts or less continuous. An optional finned heat sink extension will be available for retrofit between the LED module and the electronics compartment. This will extend the length of the flashlight by one inch for longer maximum power applications.
Upgradeable and replacement parts:
The design of the First Responder LED flashlight allows for upgrading the LED module to the latest advancement of LED technology as it becomes available. This insures that the First Responder always remains as bright as the latest flashlight without having to purchase a new one. Other component parts are replaceable including the plastic lens, led reflectors, battery compartment, tail switch and the anodized parts shown below if damaged.
The Law Enforcement Special First Responder LED flashlight has been designed for ease of maintenance and versatility. The First Responder is made with only the best materials and electronics for unequaled reliability. With the LEDs and electronics sealed in epoxy the flashlight is both water and shock resistant to the rugged conditions of field duty operations. With the ability to use different inexpensive common battery types and a variable light output, the First Responder can keep working when others have exhausted their special expensive batteries.
In a side-by-side comparison with a well known competitive 225 Lumen output incandescent bulb flashlight powered with 3 CR-123A batteries, the 3 LED 9 watt First Responder with 2 CR-123A batteries produced twice the light output with 3 to 4 times the side spill and ran for three times longer. The beam quality of the First responder was superior with no rings or other visible beam artifacts, and with a brighter and wider center hot spot and a clean white output color. At 200 feet the First Responder will light up the area between two houses close to daylight conditions.