ES2730248T3 - Method for designing, configuring and selecting an LED lighting apparatus based on the automatic determination of a plurality of design parameters - Google Patents

Abstract

A method for configuring and selecting an LED lighting apparatus based on the determination of a plurality of design parameters, comprising the following steps: aa) providing a database (10) comprising information related to: a plurality of devices lighting, each identified by a product code (cod), a plurality of optics, a plurality of LEDs and a plurality of electronic actuator and control devices of said LEDs; bb) obtain (15) from a user a number of design requirements selected from a group comprising the type of lighting apparatus to be used (12), the type of optics to be used (13), the color temperature (14) of the light emission, the required value (Fric, 16) of the light flow (Fp) of the lighting apparatus, the ambient operating temperature (Tamb, 18), the system duration (t, 20), the hours of daily operation (19), the available mains voltage (17), the drive or dimming profile (21) to be applied to the LEDs of the lighting apparatus during the daily hours of operation, the selection criteria (11) to be applied , in turn selected from a group comprising the lowest installation cost, the highest efficiency and the lowest total operating cost after a given period; cc) establish (22) an initial starting point by choosing an initial product code (cod) and a current initial supply value (C) of said LEDs, and initial values for said light flow (Fp) of the apparatus and of said system duration (t); dd) iterate at least one of the values of said product code (cod), said system duration (t) and said supply current (C) of said LEDs establishing (23) said product code (cod) equal to the following product code in said database, establish (24) said system duration (t) equal to the present value increased by one, establish (25) said supply current of said LEDs equal to the current value multiplied by the relationship between the value required (Fric) and the current value of the light flow (Fp); ee) calculate the junction temperature value of said LEDs (T, 27), the value of the light flux produced (Fp, 29), the value of the electric power (P) extracted by said lighting apparatus, the value ( 33) of the average useful life (LF) of said electronic devices under these operating conditions; ff) comparing the supply current values (C), the junction temperature values of said LEDs (T), the light flux value produced (Fp), the electric power value (P) extracted by said apparatus of lighting, the average lifetime value (LF) of said electronic devices and the system duration (t) against said design requirements to check whether said design requirements are met; gg) in case these design requirements are not met then iterate once again starting from the previous stage dd), otherwise select the lighting apparatus corresponding to the current product code (cod).

Description

DESCRIPTION

Method for designing, configuring and selecting an LED lighting apparatus based on the automatic determination of a plurality of design parameters

Field of the Invention

[0001] The present invention relates to the field of methods for designing lighting devices and the field of methods for selecting lighting devices according to the determination of a series of requirements.

Prior art

[0002] Many types of light sources, each with different characteristics and performances, are available in the field of lighting technology. The introduction of high-power LED devices has further contributed to multiply the possibilities of construction and design of a lighting apparatus and the flow of light emitted. In fact, high power LEDs are semiconductor devices characterized by small and almost punctual size, and because their type of emission, the flow of light produced, the service life and the pattern of light flux attenuation can be modified by acting on its drive

[0003] In addition to this, high power LED devices are often used in groups in prior art lighting apparatus, thereby adding an additional degree of freedom in choosing the operating conditions. In simple terms, a smaller number of LED devices controlled by a higher current can be chosen to save installation costs if maximizing the average lifetime of the apparatus is not a high priority, the required lighting body and light flux being equal. Conversely, a higher number of LEDs controlled by a lower current can be used to maximize LED efficiency and the average life of the apparatus, and ensure the constancy of emitted flow, provided that higher installation costs are acceptable.

[0004] In other words, in LED lighting apparatus, the choice of the best distribution, the number of LEDs to be used, the type of operation of said LEDs and other parameters related to the operation of the same LEDs depends on the technical requirements. that must be respected and the specific installation needs that may arise from particular environmental situations.

[0005] Therefore, there are many parameters to be evaluated during the design stage, related in part to the type of LED devices used, such as nominal power, color temperature, nominal light flux, maximum junction temperature, etc. , and in part to the environmental conditions and operational requirements that the LED lighting apparatus needs to support, the total light flow, the number of daily hours of operation, duration, etc.

[0006] The present invention therefore relates to a method for designing and configuring an LED lighting apparatus, adapted to determine the number of LEDs to be used, the type of drive, variable over time, to be applied to said LEDs. , the possible dimming profile to be applied to said LEDs and other operating parameters to make the flow of light emitted constant over time. 07891

[0007] Advantageously, the method according to the present invention can be additionally connected to a database, whether local or remote, comprising a series of pre-existing lighting devices and providing the appropriate configuration parameters, related to the minus one of the devices available, to meet exactly the initial operational requirements.

Brief description of the figures

[0008] Figure 1 shows the flow chart of the method according to the present invention.

Summary of the invention

[0009] The present invention relates to a method for designing, configuring and selecting an LED lighting apparatus, adapted to determine the operating characteristics of a lighting apparatus, such as, for example, the type of optics, the number of LED to be used and the respective type of actuation variable with time and other parameters to obtain a flow of light emitted by the resulting apparatus that is constant with time.

Detailed description of the invention

[0010] The method according to the present invention is adapted to help designers design and configure an LED lighting apparatus, to determine the number of LEDs to be used, and the variable drive profile over time to be applied to said LEDs, to make the emitted light flow constant over time.

[0011] Advantageously, the method according to the present invention is additionally connected to a database, whether local or remote, comprising a series of pre-existing lighting devices and respective control and actuation devices, and may select, at from the devices present in said database, the one that approaches the initial specifications, in accordance with the determination made and processing of the required environmental and operational conditions, and can additionally properly configure the chosen device to make it fully compatible With the initial technical specifications.

[0012] With reference to the flowchart in the attached figure 1, the method according to the present invention provides connection to a database 10 comprising the technical characteristics and operating parameters of lighting, optical, LED and electronic actuation and control devices for said LEDs, available to the user, and processes a number of operating parameters, either provided directly by the user or extracted from said database, related to each individual LED, to the apparatus of lighting and its parts, the operating conditions and the operating requirements of said lighting apparatus, comprising, for example:

the required light flow Fric, 16,

the color temperature of the light emission, 14,

the mains voltage, 17,

the environmental operating temperature, 18,

daily hours of operation, 19,

the total system duration t, 20,

the type of optics to be used, 13,

the range of product 12 to be used, which can be supplied either by the user or calculated by the method according to the present invention,

the selection criteria 11 to be applied: for example, select the most profitable installation, the most efficient installation, the installation with the lowest total cost after a given period of operation of the chosen product,

the drive or attenuation profile 21 to be applied during daily operating hours. The method according to the present invention continues in accordance with the steps described below.

a) Initialize 22 work variables by setting the product code, cod, the product operating time t, expressed in years, the current drive value, C, equal to the start of iteration values, for example an arbitrary value for the cod parameter, value 0 for parameter t and the current minimum available drive value of the power supplies of said databases 10, C0, for parameter C and set the light flux value, Fp, equal to that provided by the user as input data, Fric.

[0013] Preferably, the initial arbitrary value for the cod parameter is chosen equal to the first product code from the list of available product codes after the list has been sorted according to the entry with respect to the selection criteria to be applied. : if the selection criterion selected by the user is system cost effectiveness, said list is sorted according to the increasing number of LEDs used in the lighting fixture, if the criteria selected by the user is efficiency, said list is sorted according with the descending number of LEDs used in the lighting apparatus.

b) Start iterating the calculations of the cod, t and C parameters by setting them equal to the first product code present in said database 10, 23, equal to 1.24 and equal to C0 * (Fric / Fp), 25, respectively .

c) Check 26 the current value of the drive current C, if it is not within the acceptable range (> Cmin and <CMAX), then step a) is repeated, increase the parameter code 23 and set it equal to the following code product present in said database 10, otherwise continue.

d) Calculate 27 the junction temperature T of the LEDs used as a function of the ambient operating temperature and the current value of the drive current C.

[0014] The following formula can be used to perform this calculation, for example: T = Ta + (RthP + Rth) * C * Vf, where: RthP is the heat resistance value of the current device's heat sink, present value in said database 10; Rth is the thermal resistance value of the LED devices used in the current apparatus, value present in said database 10; Vf is the voltage at the terminals of the LED devices used in the current device, value present in said database 10.

[0015] Both the value of RthP and the value of Vf can be calculated by means of coefficients and parameters present in said database 10, according to the power (C * Vf) and the temperature T reached during the operation according to the following relationships: RthP = f (C, Vf) and Vf = f (C, T) and establish an iterative calculation that converges when the value of T (p) calculated in step "p" differs, to which a value corresponds of voltage drop "Vf (p)", minus an allowable tolerance, of the value T (p-1) calculated in Vf (p-1) in the previous stage.

e) Check 28 the current junction temperature T, if it is not less than the acceptable limit value TMAX, then repeat step a), increase the cod parameter 23 and set it equal to the following product code present in said database 10, otherwise continue.

f) Calculate 29 the flow value Fp produced by the LEDs of the device according to the current product code as a function of the current value of the current C, the current temperature value of the junction T, and the hours elapsed h .

[0016] The following formula can be used to perform this calculation, for example: Fp = Fn * nLed * kT * kC * kt, where: Fn is the nominal flow of the LED device used, value present in said database 10; nLed is the number of LEDs used in the current device, value present in said database 10; kT is the flow coefficient in relation to the temperature T of the LED device used, value present in said database 10; kC is the flow coefficient in relation to the current C of the LED device used, value present in said database 10; kt is the flow decay coefficient in relation to the elapsed hours h, calculated according to parameters and coefficients present in said database 10.

g) Check the value of the flow Fp produced by the LEDs of the device according to the current product code, if it is not equal, less a tolerance, to the value provided by the user as input data, Fric, then the stage is repeated b), reset the current drive value C 25 and set it equal to the current value multiplied by the Fric / Fp ratio, otherwise the method continues.

h) Calculate 31 the nominal power supply value of the current device, P, by multiplying the current value of current drive C by the voltage value of the LED corresponding to the current value C and the current junction temperature value T.

i) Check 32 the nominal power supply value of the current device, P, if it is not lower than the nominal power value of the power supply provided for the current device, then step a) is repeated, increase the cod parameter and set it equal to the following product code present in said database 10, otherwise the method continues.

l) Estimate 33 the value of the useful life (LF) of the current power supply as a function of the value of the current parameters P and Tamb, using known statistical methods, for example based on the Arrhenius formula.

m) Check 34 the value of the useful life of the current power supply, LF, estimated in the previous stage, if it does not exceed the duration value of the lighting system provided by the user as the input value, then repeat step a ) again, increase the parameter code 23 and set it equal to the following product code present in said database 10, otherwise continue.

n) Store 35 the current value of current C corresponding to the current year (current value of parameter t). o) Check 36 the value of parameter t, if it is not equal to the duration value of the lighting system provided by the user as input data, then repeat step b), reset the value of parameter t and set it equal to the current value 1 , otherwise ending and producing the following results:

- the product code selected with the respective electronic drive and control device for LEDs 37;

- the type of optics selected;

- the type of LED selected;

- a table of drive current values C that vary during the year of operation of the selected product;

- the total energy consumption of the selected device during the entire required period of operation is calculated by adding the energy consumption values referenced to each year of operation, calculated in turn multiplying the characteristic operating power of a given year of operation by the actual operating time in said year of operation;

- the calculation 38 of the energy savings achieved using the selected product compared to a conventional installation calculated, for example, as the difference between the total energy consumption of the selected device during the entire required period of operation and the product of the power P , referenced to the last year t of operation, and the number of years of operation;

- the electronic file 39 for configuring said electronic drive and control devices for said LEDs in the selected device, modified to implement said table of variations of drive current values C during the year of operation.

[0017] Advantageously, the method according to the present invention may also include establishing, among the input parameters, a possible attenuation profile of the light flow emitted by the chosen apparatus. In this case, said attenuation profile will be used to calculate the energy savings achieved using the selected product compared to a conventional installation and to produce the electronic file

said electronic drive and control devices for said LEDs in the selected device.

[0018] The object of the method of the present invention can be implemented in the form of a software program to be advantageously executed by a computer, such as for example a desktop personal computer or a laptop, a tablet computer, a telephone smart, etc.

[0019] The method object of the present invention, when implemented in the form of a software program, is further adapted to interface with software programs for writing configuration files and / or firmware for said actuators and electronic control of said LEDs in lighting apparatus.

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Claims (9)

1. A method for configuring and selecting an LED lighting apparatus based on the determination of a plurality of design parameters, comprising the following steps: aa) provide a database (10) comprising information related to: a plurality of lighting devices, each identified by a product code (cod), a plurality of optics, a plurality of LEDs and a plurality of devices electronic actuators and control of said LEDs; bb) obtain (15) from a user a number of design requirements selected from a group comprising the type of lighting apparatus to be used (12), the type of optics to be used (13), the color temperature (14) of the light emission, the required value (Fric, 16) of the light flow (Fp) of the lighting apparatus, the ambient operating temperature (Tamb, 18), the system duration (t, 20), the hours of daily operation (19), the available mains voltage (17), the drive or dimming profile (21) to be applied to the LEDs of the lighting apparatus during the daily hours of operation, the selection criteria (11) to be applied , in turn selected from a group comprising the lowest installation cost, the highest efficiency and the lowest total operating cost after a given period; cc) establish (22) an initial starting point by choosing an initial product code (cod) and a current initial supply value (C) of said LEDs, and initial values for said light flow (Fp) of the apparatus and of said system duration (t); dd) iterate at least one of the values of said product code (cod), said system duration (t) and said supply current (C) of said LEDs establishing (23) said product code (cod) equal to the following product code in said database, establish (24) said system duration (t) equal to the present value increased by one, establish (25) said supply current of said LEDs equal to the current value multiplied by the relationship between the value required (Fric) and the current value of the light flow (Fp); ee) calculate the junction temperature value of said LEDs (T, 27), the value of the light flux produced (Fp, 29), the value of the electric power (P) extracted by said lighting apparatus, the value ( 33) of the average useful life (LF) of said electronic devices under these operating conditions; ff) comparing the supply current values (C), the junction temperature values of said LEDs (T), the light flux value produced (Fp), the electric power value (P) extracted by said apparatus of lighting, the average lifetime value (LF) of said electronic devices and the system duration (t) against said design requirements to check whether said design requirements are met; gg) in case these design requirements are not met then iterate once again starting from the previous stage dd), otherwise select the lighting apparatus corresponding to the current product code (cod). 2. A method according to claim 1, wherein step cc) related to the establishment (22) of an initial starting point is carried out as follows: a) set the product code (cod) equal to 0, set the product operation time (t), expressed in years, equal to 0, set the current drive value (C) equal to the current minimum drive value, C0, available from the electronic drive devices of said database, set the light flux value (Fp) equal to that provided by the user as input data, Fric. 3. A method according to claims 1-2, wherein the list of product codes of said lighting fixtures available in said database (10) is ordered based on the user's design requirement related to the criterion of selection to be applied: if the criteria selected by the user is cost-effectiveness of the system, said list is sorted according to the increasing number of LEDs used in the lighting apparatus, if the criteria selected by the user is efficiency, said list It is sorted according to the decreasing number of LEDs used in the lighting apparatus. 4. A method according to claims 1-3, wherein the sequence of said steps calculation of ee) and comparison ff) is carried out by means of the following steps: c) check (26) the current value of the drive current (C), if it is not within the acceptable range (> Cmin and <CMAX), then increase (23) the product code (cod) by setting it equal to the following code of product present in said database (10), otherwise continue; d) calculate (27) the junction temperature (T) of said LEDs as a function of the ambient operating temperature (Tamb) and the current value of the drive current (C); e) check (28) the current junction temperature value (T) of said LEDs, if it is not lower than the minimum acceptable value TMAX, then increase (23) the product code (cod) by setting it equal to the following product code present in said database, otherwise continue; f) calculate (29) the flow value (Fp) produced by said LEDs of the apparatus corresponding to said current product code as a function of the current value of the drive current (C) and the current junction temperature value ( T); g) checking (30) the value of the flow (Fp) produced by said LEDs of the apparatus corresponding to said current product code, if not equal, minus a tolerance, to the value provided by the user as data of input, Fric, then increase (25) the current drive value (C) by setting it equal to the current value multiplied by the Fric / Fp ratio, otherwise continue; h) calculate (31) the nominal power supply value of the current device (P) by multiplying the current value of the drive current (C) by the voltage drop value at the terminals of said LEDs corresponding to the given current (C) and at the current junction temperature (T); i) check (32) the nominal power supply value of the current device (P), if it is not less than the nominal power value of the power supply provided by the current device, then increase (23) the product code (cod ) by setting it the same as the following product code present in said database, otherwise continue; l) estimate (33) the value of the useful life (LF) of the power supply provided by the current device as a function of the value of the current power parameter (P) and the current ambient operating temperature parameter (Tamb), using known statistical methods; m) check (34) the value of the useful life (LF) of the expected power supply for the current device estimated in the previous stage, if it does not exceed the duration requirement of the lighting system (t) provided by the user, then increase (23) the product code (cod) by setting it equal to the following product code present in said database, otherwise n) storing (35) the current value of the drive current (C) corresponding to the current duration value of the lighting system (t); o) check (36) the current duration value of the lighting system (t), if it is not equal to the duration requirement of the lighting system provided by the user, then establish (24) said system duration (t) equal to current value increased by one and increase (25) the current drive value (C), setting it equal to the current value multiplied by the Fric / Fp ratio, and executing said previous stage c) again, otherwise issuing the results. 5. A method according to claim 4, wherein said estimation of the value of the useful life (LF) of the power supply provided by the current apparatus, as a function of the current value of the power parameter (P) and of The ambient operating temperature (Tamb) in step I) is carried out using the Arrhenius formula. 6. A method according to claims 4-5, wherein said results are chosen from the group comprising: the selected product code (cod, 37); the selected type of optics; the selected type of LED; the selected type of electronic drive and control device of said LEDs; a table of drive current values (C) that varies during the year of operation (t) of the selected product; the total energy consumption of the selected device during the entire required period of operation, calculated by adding the energy consumption values referred to each year of operation, calculated, in turn, multiplying the characteristic operating power of a given year of operation by the actual operating time in said year of operation; the energy saving (38) achieved using the selected product compared to a conventional installation; the electronic file (39) for configuring said drive devices and electronic control of said LEDs in the selected apparatus, modified to implement said table of variations of drive current values (C) during the year of operation. 7. A method according to claim 6, wherein the energy saving (38) achieved using the selected product compared to a conventional installation is calculated as the difference between the total energy consumption of the selected apparatus during the period of required entire operation and the product of the power (P), referred to the last year (t) of operation, and the number of years of operation. 8. A computer program comprising coding programming means adapted to carry out the steps of the method of claims 1 to 7, when said program is executed by a computer. 9. A computer readable recording medium having a program recorded therein, said readable recording medium comprising code means for a computer program adapted to implement all stages of claims 1 to 7, when said program is executed in a computer.