WO2018214632A1 - 水下对焦和闪光切换的led灯光控制装置及方法 - Google Patents
水下对焦和闪光切换的led灯光控制装置及方法 Download PDFInfo
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- WO2018214632A1 WO2018214632A1 PCT/CN2018/080121 CN2018080121W WO2018214632A1 WO 2018214632 A1 WO2018214632 A1 WO 2018214632A1 CN 2018080121 W CN2018080121 W CN 2018080121W WO 2018214632 A1 WO2018214632 A1 WO 2018214632A1
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- led lamp
- light
- led
- flash
- main control
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- G—PHYSICS
- G03—PHOTOGRAPHY; CINEMATOGRAPHY; ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ELECTROGRAPHY; HOLOGRAPHY
- G03B—APPARATUS OR ARRANGEMENTS FOR TAKING PHOTOGRAPHS OR FOR PROJECTING OR VIEWING THEM; APPARATUS OR ARRANGEMENTS EMPLOYING ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ACCESSORIES THEREFOR
- G03B15/00—Special procedures for taking photographs; Apparatus therefor
- G03B15/02—Illuminating scene
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F21—LIGHTING
- F21V—FUNCTIONAL FEATURES OR DETAILS OF LIGHTING DEVICES OR SYSTEMS THEREOF; STRUCTURAL COMBINATIONS OF LIGHTING DEVICES WITH OTHER ARTICLES, NOT OTHERWISE PROVIDED FOR
- F21V19/00—Fastening of light sources or lamp holders
- F21V19/001—Fastening of light sources or lamp holders the light sources being semiconductors devices, e.g. LEDs
- F21V19/003—Fastening of light source holders, e.g. of circuit boards or substrates holding light sources
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F21—LIGHTING
- F21V—FUNCTIONAL FEATURES OR DETAILS OF LIGHTING DEVICES OR SYSTEMS THEREOF; STRUCTURAL COMBINATIONS OF LIGHTING DEVICES WITH OTHER ARTICLES, NOT OTHERWISE PROVIDED FOR
- F21V31/00—Gas-tight or water-tight arrangements
- F21V31/005—Sealing arrangements therefor
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- G—PHYSICS
- G03—PHOTOGRAPHY; CINEMATOGRAPHY; ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ELECTROGRAPHY; HOLOGRAPHY
- G03B—APPARATUS OR ARRANGEMENTS FOR TAKING PHOTOGRAPHS OR FOR PROJECTING OR VIEWING THEM; APPARATUS OR ARRANGEMENTS EMPLOYING ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ACCESSORIES THEREFOR
- G03B15/00—Special procedures for taking photographs; Apparatus therefor
- G03B15/02—Illuminating scene
- G03B15/03—Combinations of cameras with lighting apparatus; Flash units
- G03B15/05—Combinations of cameras with electronic flash apparatus; Electronic flash units
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- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05B—ELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
- H05B45/00—Circuit arrangements for operating light-emitting diodes [LED]
-
- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05B—ELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
- H05B45/00—Circuit arrangements for operating light-emitting diodes [LED]
- H05B45/10—Controlling the intensity of the light
-
- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05B—ELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
- H05B45/00—Circuit arrangements for operating light-emitting diodes [LED]
- H05B45/30—Driver circuits
- H05B45/32—Pulse-control circuits
- H05B45/325—Pulse-width modulation [PWM]
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02B—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
- Y02B20/00—Energy efficient lighting technologies, e.g. halogen lamps or gas discharge lamps
- Y02B20/40—Control techniques providing energy savings, e.g. smart controller or presence detection
Definitions
- the invention relates to LED lighting control of underwater photography equipment, in particular to an LED lighting control device and method capable of automatically performing underwater low power focusing and high power flash switching control.
- auxiliary illumination required for underwater photography generally adopts two methods.
- One is a flash lamp that uses a xenon pulse discharge to emit light, and the camera is used to illuminate the light, and the camera is used to fill the light.
- the shortcoming of this method is that it can only emit light instantaneously, and can not be used for focusing with continuous illumination, and since the device generally uses a dry battery, the number of times of use of the flash is small, and the use period is short.
- the other is LED high-power illuminator-assisted illumination, which is an auxiliary illumination method that achieves the ambient brightness required for shooting in a continuous illumination manner. It is usually required that the LED illuminator always works under high-power conditions. The way in which the effective work is performed is greatly shortened, and the high-power lamps have a large heat generation amount and require a larger volume of heat dissipation, so the product cost is high. Therefore, whether it is a flash lamp that uses gas pulse illumination or a technology that uses high-power LED as a camera-assisted illumination, there are disadvantages of short effective use time, high equipment use cost, and complicated operation.
- the invention aims to solve the above problems, and provides an underwater automatic with low power and low light assisted focusing, high-power glare to provide shooting light, small average working power, long battery life, good heat dissipation effect and low cost.
- the present invention provides an LED light control device for underwater low power focusing and high power flash switching control
- the LED light control device is provided with an LED lamp holder
- the LED lamp holder is annular a plurality of LED lamp beads are arranged at intervals on the ring surface on the front side of the LED lamp holder, and the plurality of LED lamp beads comprise two kinds of lamp beads displaying different colors and brightness of illumination.
- the upper part of the socket is provided with a battery compartment and a main controller connected to one side of the battery compartment.
- the main controller comprises a main control circuit and an optical signal conversion circuit connected thereto, and the optical signal conversion circuit is provided with a photosensitive sensor PT.
- the photosensor PT is connected to an optical fiber line introduced from outside the main controller, and
- the photographing device After the control device is powered on, under the control of the main control circuit, part of the LED lamp bead is illuminated with low-power weak light to assist the camera device to focus, and after the focus is completed, when the shutter of the photographing device is pressed, the photographing device is The flash signal emitted by the flash lamp is transmitted to the photosensor PT via the optical fiber line, and the optical signal conversion circuit converts the optical signal received by the photosensor PT into an electrical signal and transmits it to the main control circuit, and the LED lamp bead required for control is sent out. Shoot the set high power glare.
- the LED lamp holder is provided with an inner ring surface matching the lens of the photographing device, and the plurality of LED lamp beads are disposed on the front surface of the LED lamp holder, and the outer side of the LED lamp holder is externally disposed.
- the main controller is provided with a cylindrical outer casing integrally formed or connected to the top of the LED lamp holder.
- the first button and the second button are arranged on the top of the cylindrical casing, and the battery compartment is connected at one end of the cylindrical casing.
- the cylindrical connecting portion is connected to the battery compartment by a screw seal, and the connecting portion is provided with at least one sealing ring.
- a ball head for connecting with the photographing device is disposed outside the joint portion of the LED lamp holder and the cylindrical casing.
- the main control circuit includes a main control chip U1, a switch transistor Q3, a switch transistor Q4, an LED lamp bead R, and an LED lamp bead W.
- One end of the switch transistor Q3 is connected to the LED lamp bead W, and the other end of the switch is connected to the LED lamp bead W.
- R12 and resistor R13 are connected to the main control chip U1.
- One end of the switch transistor Q4 is connected to the LED lamp bead R, and the other end thereof is connected to the main control chip U1 via the resistor R14 and the resistor R15, and the main control chip U1 is modulated by the output pulse width.
- the signal control switch transistor Q3 and the switching transistor Q4 are turned on or off to adjust the brightness of the LED lamp bead R and the LED lamp bead W.
- the optical signal conversion circuit includes a conversion chip U3, a photosensitive sensor PT, a resistor R18, a resistor R21, a resistor R23, a switching transistor Q5, a switching transistor Q6, and a capacitor C5, wherein the photosensitive sensor PT passes through a resistor R21, a resistor R23, a switch
- the transistor Q6 and the capacitor C5 are connected to the input end of the conversion chip U3, and the output end of the conversion chip U3 is connected to the main control chip U1 via the resistor R22 and the switching transistor Q5, and the high level or low level signal is sent to the main control chip U1.
- the main control chip U1 is connected to the DC power source BATT via the switching transistor Q1 and the diode D1.
- the invention also provides a method for LED lighting control by the underwater light power focusing and high power flash switching control LED lighting control device, characterized in that the method comprises the following steps:
- the user manually switches the red LED bead R or the white LED bead W by the main controller, and adjusts the brightness position, and the brightness position is from low light to strong light.
- the weak red light or the weak white light may be selected as the focusing light, and the low-duty signal with a low duty ratio outputted by the main control circuit provides auxiliary focusing for the photographing device;
- the white or red weak light is always on.
- the flash signal of the photo device flash is transmitted to the photosensor PT through the optical fiber line, and is lighted by the light.
- the signal conversion circuit is converted into a level signal, the main control circuit adjusts its duty ratio by outputting a pulse width modulation signal, and the white LED lamp bead reaches the maximum brightness through a high level signal with a high duty ratio, and is instantly illuminated as an auxiliary light source.
- the main control circuit adjusts its duty ratio by outputting a pulse width modulation signal, and the white LED lamp bead reaches the maximum brightness through a high level signal with a high duty ratio, and is instantly illuminated as an auxiliary light source.
- the LED lamp bead R and the LED lamp bead automatically return to the white or red weak light.
- the invention has the advantages that it effectively solves the defects that the existing camera-assisted lighting device has short effective use time, high equipment use cost and complicated operation.
- the invention assists the camera to focus through a certain intensity of light by operating part of the LED lamp under low power conditions, and when the camera shutter is pressed, the other LED lights are operated under high power conditions, and all the LED lights are instantly raised.
- the luminous power which satisfies the brightness requirement of the shooting, obtains the underwater photography picture with the same visual effect as the continuous high-power illumination, and returns to work under low power conditions after the shooting is completed. Therefore, the light control device of the present invention has a small average power operation, can increase the battery life under the condition of the same battery capacity, and simplifies the heat dissipation design under the same maximum brightness LED specification, thereby saving cost.
- Figure 1 is a perspective view showing the structure of the present invention.
- Figure 2 is an exploded perspective view of the components of the present invention.
- Fig. 3 is a schematic view showing the structure of the side of the connecting fiber of the present invention.
- Figure 4 is a cross-sectional view of the present invention.
- FIG. 5 is a block diagram showing the overall structure of the present invention.
- Figure 6 is a circuit schematic of the present invention.
- Figure 7 is a schematic diagram of the workflow of the present invention.
- the LED socket 10 is annular, and has an inner annular surface 11 at the center thereof, and the inner diameter of the inner annular surface 11 is matched with the camera lens.
- the front end annular surface of the LED socket 10 is provided with a plurality of LED lamp beads 50 arranged at intervals in the circumferential direction of the torus, and the LED lamp beads 50 can be increased or decreased according to actual shooting requirements.
- thirty-two LED lamp beads arranged along the annulus are provided on the annular surface, but the number of LED lamp beads is not limited thereto, and may be increased or decreased according to actual shooting requirements.
- the LED lamp bead is mounted on the annular LED circuit board 15, four of which are white LED lamp beads W, the white LED lamp beads W are symmetrically arranged along the torus, and the remaining 28 are red LED lamp beads R,
- the LED circuit board 15 is provided with a plurality of screw holes, and the LED circuit board 15 is fixed to the LED lamp holder 10 via the plurality of screw holes by screws.
- a sealed transparent protective lamp cover 12 is fixedly attached to the front side of the LED lamp holder 10 .
- a sealing ring is provided at a joint portion of the transparent protective lamp cover 12 and the LED lamp holder 10, and the transparent protective lamp cover 12 may be made of plastic or plexiglass.
- a ball head 14 for connecting with the camera device is disposed outside the joint portion of the LED lamp holder 10 and the cylindrical housing.
- the ball head 14 includes a ball 141 and a connecting rod 142 integrated with the ball 141.
- the front end of the connecting rod 142 is threaded.
- the ball head 14 can be connected to the photographing device through the ball clip external ball head lamp arm.
- a latching ring 13 is formed on the rear side of the LED lamp holder 10, and the bayonet ring 13 is screwed to the LED lamp holder 10.
- the LED lighting control device of the present invention is connected to the camera through the bayonet ring 13. The front of the lens.
- a cylindrical outer casing 40 is provided on the upper portion of the LED socket 10, and the cylindrical casing 40 can be integrally formed or connected with the LED socket 10 for mounting the main controller 30.
- An end cover 42 is disposed at one end of the cylindrical outer casing 40. The end of the end cover 42 is provided with an optical fiber introduction hole 421.
- the optical fiber cable is connected to the photosensitive sensor PT disposed in the cylindrical outer casing 40 through the optical fiber introduction hole 421.
- the other end of the fiber optic cable is connected to the built-in flash of the camera device.
- the top of the cylindrical casing 40 is provided with a first button 411 and a second button 412 for manual gear adjustment of the LED lamp beam brightness.
- the other end of the cylindrical casing 40 is provided with a cylindrical connecting portion 41 which is connected to the battery compartment 20 by a screw seal.
- the connection portion between the cylindrical connecting portion 41 and the battery compartment 20 is provided. Two seals are provided for waterproof entry.
- the battery compartment 20 is also cylindrical, and can be equipped with a lithium battery for powering the LED lamp bead.
- a main controller 30 is provided in the cylindrical casing 40.
- the main controller 30 includes a main control circuit 31 and an optical signal conversion circuit 32 connected thereto.
- the main control circuit 31 includes a main control chip U1, a switching transistor Q3, a switching transistor Q4, an LED lamp bead R, and an LED lamp bead W.
- the main control chip U1 is a programmable chip carrying a main control program.
- the main control chip U1 is an SOP8 type chip, which is used to control the operation of the entire main control circuit 31.
- One end of the switch transistor Q3 is connected to the LED lamp bead W, and the other end of the switch transistor Q3 is connected to the 5 pin of the main control chip U1 via a resistor R13 and a resistor R12.
- the main control chip U1 controls the turn-on or turn-off of the switching transistor Q3 and the switching transistor Q4 through the 5-pin and 6-pin output pulse width modulation signals PWM, thereby adjusting the brightness of the LED lamp bead R and the LED lamp bead W.
- the switching transistor Q5 of the optical signal conversion circuit 32 is turned on for about 2 seconds, and the 7th pin of the main control chip U1 collects a low level signal of about 2 seconds to This is a valid signal for the flash.
- the main control chip U1 receives the flash signal, the 5th or 6th pin of the main control chip U1 outputs a pulse width modulation signal, and adjusts the duty ratio of the high level and the low level to control the switch by transmitting a square wave.
- the ratio of the conduction and closing time of the transistor Q3 and the switching transistor Q4 is such that the brightness intensity of the white LED lamp bead W or the red LED lamp bead R is controlled.
- the main control chip U1 In low light, the main control chip U1 outputs a low percentage of pulse width modulation signal through its 5 or 6 feet, and the white LED lamp bead W or the red LED bead R emits a corresponding percentage of weak light.
- the main control chip U1 When the main control chip U1 outputs a level signal of a bright duty ratio through its 5-pin or 6-pin, and the level signal is about 200 milliseconds, the switch transistor Q3 and the switching transistor Q4 are all turned on, and the white LED lamp is turned on at this time.
- the bead W or the red LED bead R achieves high brightness and provides the required strong light illumination for the camera device. After 200 milliseconds, it returns to the weak light pulse width modulation signal output state, waiting for the next flash signal.
- the optical signal conversion circuit 32 includes a photosensor PT, a conversion chip U3, a resistor R18, a resistor R21, a resistor R23, a switching transistor Q5, a switching transistor Q6, and a capacitor C5.
- the photosensor PT is for receiving an optical signal introduced by a fiber optic line (not shown).
- the photosensitive sensor PT is connected to the TR port of the input terminal 2 of the conversion chip U3 via the resistor R21, the resistor R23, the switching transistor Q6 and the capacitor C5, and the output end of the conversion chip U3 is passed through the resistor R22, the switching transistor Q5 and the main control chip U1.
- a 7-pin connection is used to send a high or low signal to the master chip U1.
- the photosensitive sensor PT when the photosensitive sensor PT is in normal operation, the light intensity received by the photosensitive surface is weak, the current through the photosensitive sensor PT is small, and the voltage on the resistor R23 is small, which is insufficient for the switching transistor Q6 to be turned on. . Due to the pull-up effect of the resistor R18, the voltage on the side of the connection between the capacitor C5 and the switching transistor Q6 is high, so that in the case of low light, the main control chip U1 controls the 5-pin or 6-pin output of a low percentage of the PWM signal, then the LED lamp bead The W or LED lamp bead R emits a corresponding percentage of low light.
- the internal resistance of the photosensor PT becomes small instantaneously, which is equivalent to the voltage of 4v directly passing through the photosensor PT, divided by the resistor R21 and the resistor R23, and the resistor R23 obtains a sufficient voltage.
- the switching transistor Q6 is turned on, the voltage of the connection side of the capacitor C5 and the resistor R18 is pulled low to a low level, and the voltage change is coupled to the TR port of the 2-pin of the conversion chip U3 through the capacitor C5, and finally in the conversion chip U3
- the OUT port of the 3 pin forms a high level of about 2 seconds, that is, the switching transistor Q5 will be turned on for about 2 seconds, at which time the LED lamp bead W or the LED lamp bead R emits a corresponding percentage of glare.
- the main control circuit 31 is powered by a DC power source BATT.
- the DC power source BATT is a lithium battery housed in the battery compartment 20.
- the main control chip U1 is connected to the DC power source BATT via the switching transistor Q1 and the diode D1.
- Three LED indicator lights 313 are provided on the LED circuit board 15, which are three-color indicator lights of blue, green and red. The blue light indicates that the power is sufficient, the green light indicates that the power is less than 50%, and the red light prompts to replace the battery.
- the first button 311 is used to control the switching of the power source and the red gear position adjustment, and the second button 312 is used to control the white light gear position adjustment.
- the underwater light control device of the present invention capable of automatically switching between low power focus and high power flash is used as an auxiliary light source for underwater photography.
- the power is turned on, under the control of the main control circuit 31, part of the LED lamp bead is illuminated with low-power low-light light to assist the camera device to focus, and after the focus is completed, when the shutter of the photographing device is pressed, the photographing device
- the flash signal from the flash lamp is transmitted to the photosensor PT via the optical fiber line, and the optical signal conversion circuit 32 converts the optical signal received by the photosensor PT into an electrical signal and transmits it to the main control circuit 31 to control the remaining LED lamps.
- the beads emit high-power glare for shooting.
- the method for controlling LED lighting by the LED lighting control device of the present invention comprises the following steps:
- Step S10 connecting the LED light control device to the photographing device through the optical fiber line, and fixing the ball head 14 on the LED light control device to the ball arm through the ball clamp, and the ball arm is fixedly connected with the photographing device.
- Step S20 The user can manually switch between the red LED bead R or the white LED bead W by the first button 411 and the second button 412 according to the brightness of the underwater shooting environment and the shooting theme, and simultaneously adjust the brightness gear position.
- the brightness gear can be selected from a low light to a strong light cycle, and a weak red light or a weak white light can be selected as the focusing light, and the low-level signal with a low duty ratio outputted by the main control circuit 31 provides auxiliary focus for the photographing device;
- Step S30 After the focus is completed, the photo flash mode is entered, and the white or red weak light is always on.
- the flash signal of the photographing device flash is transmitted to the photosensor PT via the optical fiber line, and is converted into a level signal by the optical signal conversion circuit 32, and the main control circuit 31 adjusts by outputting the pulse width modulation signal.
- the duty ratio, the high-level signal with a high duty ratio causes the white LED lamp bead to reach the maximum brightness, and the auxiliary light source instantly illuminates the front of the photographing device;
- Step S40 After the strong flash ends, the LED lamp beads R and W automatically return to the white or red low light steady state.
- the present invention provides an LED light control device and method for underwater automatic low power focusing and high power flash switching control, which has a small average working power and a long battery life, which can simplify heat dissipation design and save cost. Achieve the need for auxiliary illumination source selection and control for underwater photography for clear imaging.
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Abstract
Description
Claims (8)
- 一种水下小功率对焦和大功率闪光切换控制的LED灯光控制装置,其特征在于,该LED灯光控制装置设有LED灯座(10),所述LED灯座(10)为圆环状,在所述LED灯座(10)前侧的环面上沿周围方向间隔排列有多个LED灯珠(50),所述的多个LED灯珠(50)包含两种显示不同颜色及发光亮度的灯珠,在所述LED灯座(10)上部设有电池仓(20)和连接在电池仓(20)一侧的主控制器(30),所述主控制器(30)包括主控电路(31)及与之连接的光信号转换电路(32),所述光信号转换电路(32)设有光敏传感器PT,该光敏传感器PT与由主控制器(30)外侧引入的光纤线连接,且该控制装置开启电源后,在所述主控电路(31)控制下,部分的LED灯珠以低功率的弱光进行照明,拍照设备对焦完成后,当按下拍照设备快门时,拍照设备的闪光灯发出的闪光信号经所述光纤线传至所述光敏传感器PT,所述光信号转换电路(32)将光敏传感器PT接收的光信号转换成电信号传输到主控电路(31),控制所需的LED灯珠发出拍摄设定的高功率强光。
- 如权利要求1所述的水下小功率对焦和大功率闪光切换控制的LED灯光控制装置,其特征在于,所述LED灯座(10)设有与拍照设备镜头相匹配的内环面(11),该LED灯座(10)的前侧的环面上设有所述的多个LED灯珠(50),在所述LED灯座(10)前侧外部设有密封的透明防护灯罩(12),所述LED灯座(10)的后侧设有凸出的连接相机用的卡口环(13)。
- 如权利要求1所述的水下小功率对焦和大功率闪光切换控制的LED灯光控制装置,其特征在于,所述主控制器(30)外设有筒形外壳(40),其一体形成或连接在LED灯座(10)顶部,在该筒形外壳(40)顶部设有第一按钮(411)及第二按钮(412),在筒形外壳(40)一端设有与电池仓(20)连接的筒形连接部(41),该筒形连接部(41)与电池仓(20)通过螺纹密封连接,该连接部(41)内装有至少一个密封圈。
- 如权利要求2或3所述的水下小功率对焦和大功率闪光切换控制的LED灯光控制装置,其特征在于,所述LED灯座(10)与所述筒形外壳(40)结合部外侧设有与拍照设备连接用的球头(14)。
- 如权利要求1所述的水下小功率对焦和大功率闪光切换控制的LED灯光控制装置,其特征在于,所述主控电路(31)包括主控芯片U1、开关三极管Q3、开关三极管Q4及LED灯珠R、LED灯珠W,其中,所述开关三极管Q3的一端与LED灯珠W连接,其另一端经电阻R12、电阻R13与主控芯片U1连接,所述开关三极管Q4的一端与LED灯珠R连接,其另一端经电阻R14、电阻R15与主控芯片U1连接,主控芯片U1通过输出脉冲宽度调制信号控制开关三极管Q3、开关三极管Q4的导通或截止调节LED灯珠R及LED灯珠W的亮度强弱。
- 如权利要求1所述的水下小功率对焦和大功率闪光切换控制的LED灯光控制装置,其特征在于,所述光信号转换电路(32)包括转换芯片U3、光敏传感器PT、电阻R18、电阻R21、电阻R23、开关三极管Q5、开关三极管Q6及电容C5,其中,所述光敏传感器PT经 电阻R21、电阻R23、开关三极管Q6及电容C5与转换芯片U3的输入端连接,转换芯片U3的输出端经电阻R22、开关三极管Q5与主控芯片U1连接,将高电平或低电平信号送到主控芯片U1。
- 如权利要求5所述的水下小功率对焦和大功率闪光切换控制的LED灯光控制装置,其特征在于,所述主控芯片U1经开关三极管Q1、二极管D1与直流电源BATT连接。
- 一种由权利要求1所述的装置进行LED灯光控制的方法,其特征在于,该方法包括如下步骤:a、按下LED灯光控制装置的电源控制按钮,开机并初始化后,进入白光常亮模式;b、使用者根据水下拍摄环境情况,通过主控制器(30)手动切换点亮红光LED灯珠R或者白光LED灯珠W,并进行亮度档位调整,亮度档位由到弱光到强光循环,可选择弱红光或弱白光为对焦光线,通过主控电路(31)输出的占空比低的低电平信号为拍照设备提供辅助对焦;c、对焦完成后,进入拍照闪光模式,此时白色或红色弱光常亮,当使用者按下拍照设备的快门时,拍照设备闪光灯的闪光信号经光纤线传导至光敏传感器PT,并由光信号转换电路(32)转换为电平信号,主控电路(31)通过输出脉冲宽度调制信号调节其占空比,通过占空比高的高电平信号使白光LED灯珠W达到最大亮度,作为辅助光源瞬间照亮拍照设备前方;d、强力闪光结束后,LED灯珠R、LED灯珠W自动回到白色或红 色弱光常亮状态。
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