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Home > Products > cheap high luminous intensity laser 10W beam light module for cars led headlights
cheap high luminous intensity laser 10W beam light module for cars led headlights
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Product: views:5cheap high luminous intensity laser 10W beam light module for cars led headlights 
Unit Price: Negotiated
Min.Order:
Supply:
Delivery: Shipment within days since the date of payment
Valid until: Long Term
Updated on: 2020-12-18 12:28
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Product Details
PRODUCT DESCRIPTION
  Product Name   10w white light laser module for auto headlights high beam
  Model   FHA10
  Input Voltage   Available 4-5V
  Luminous Flux   500lm
  Color temperature   7000K
  Certification   RoHS
  Warranty   1 year

1.   Technology overview

Based on laser technology, FHA10 is a brand new product designed and produced by Unionlux. With high brightness, compact-designed, long lifetime and stability and strong direction, it offers premium beam lighting for flashlight or long-distance searching light . It combines the novel, proprietary technology and advanced production together, which will make you product powerful.

 

Features

Technology: High power laser stimulates phosphor to emit visible light

High luminous intensity, twice of the xenon lamp

Long lifetime, more than 10,000 hours

Stability and reliability

Low operating voltage, cool start

Cover visible spectrum, no IR and UV component

 

2. Performance Characteristics

2.1 Absolute Maximum Ratings

Item

Symbol

Parameter

Unit

Maximum Forward Current*1)

IfMax

2.7

A

Allowable Reverse Current*1)

Ir

85

mA

Storage Temperature range

Tstg

-40 ~ 85

°C

Operating Temperature range *2)

Tm

0 ~ 65

°C

Notes for the above table:

*1) Test Condition: Tm =25°C, ACC (Auto Current Control) Operation

Individual LD light source module.

*2) Refer to Figure 4.

2.2 Electrical Characteristics

Item

Symbol

Test Condition

Min

Typ

Max

Unit

Threshold Current*3)

Ith

CW Operation

220

-

500

mA

Forward Voltage*3)

Vf

If =2.5A

4.0

4.4

5.0

V

Notes for the above table:

*3) Based on CW operation.

    Test Condition: Tm =25°C, ACC (Auto Current Control) Operation

Figure 1.Pin assignment

2.3 Initial Optical Parameter based on integrating sphere testing

Item

Symbol

Test Condition

Min

Typ

Max

Unit

Correlated Color Temperature*4)

CCT

If=2.5A

6,200

7,000

7,800

K

Luminous Flux*4)

Φv

If=2.5A

450

500

-

lm

Notes for the above table:

All parameters in this specification are measured by Unionlux's method and may contain measurement deviations.

*4) Test Condition: Tm =25°C, ACC, If=2.5A (CW)

2.4 Initial Optical Parameter based on spot on wall

Item

Symbol

Test Distance

Min

Typ

Max

Unit

Illumination(Center Point)*5)

EVP01

5M

13,250

14,000

-

lx

EVP02

8M

5,100

5,400

-

lx

Notes for the above table:

All parameters in this specification are measured by Unionlux's method and may contain measurement deviations.

*5) Test Condition: Tm =25°C, ACC, If=2.5A (CW)

    Center Point [P0] refers to Figure 3.

 

Figure 2.Illumination parameters for further distance*6)

                                                                                                 

2.5 Lifetime Characteristics

Item

Symbol

Test Condition

Min

Typ

Max

Unit

Estimated Lifetime*7)

Life

Cumulative Failure Rate 50%

10,000

-

-

hrs

Cumulative Failure Rate 1%

1,000

-

-

hrs

Notes for the above table:

*7) Test Condition: Tm =65°C, ACC, If=2.5A (CW)

2.6 Thermal Characteristics

 

 

Figure 3.Schematic diagram of measurement system

Heat Dissipation System: Ensure the temperature of the Copperplate[Tm] ≤65.

Calculating method of Thermal Power [Pth]: Pth = Operating Power * 75%

3. Characteristics Curves

Figure 4. Relative Luminous Flux vs. Forward Current*8)

Figure 5. Forward Voltage vs. Forward Current*8)

 

Figure 6. CCT vs. Copperplate Temperature[Tm] at If=2.5A (CW) *8)

 

Figure 7. Relative Luminous Flux vs. Copperplate Temperature[Tm] at If=2.5A (CW) *8)

Figure 8. Forward Voltage vs. Copperplate Temperature[Tm] at If=2.5A(CW) *8)

4. Spectral Power Distribution Characteristics

 

Figure 9. Typical normalized power vs. wavelength at Tm =25°C, ACC, If=2.5A (CW)

 

5. Mechanical Dimensions

 

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