Teburin Abubuwan Ciki
- 1. Bayanin Samfur
- 2. Cikakken Bayanin Ƙayyadaddun Fasaha
- 2.1 Halayen Gani
- 2.2 Halayen Lantarki
- 2.3 Matsakaicin Matsakaicin Ƙimar Ƙarfafawa
- 3. Bayanin Tsarin Binning\nTakardun bayanan ta nuna cewa an rarraba na'urar don ƙarfin haske. Wannan yana nufin tsarin binning bisa ga aunin fitar haske. Duk da yake ba a lissafta takamaiman lambobin kwandon a cikin wannan takarda ba, irin wannan tsarin yawanci yana rarraba na'urori zuwa jeri daban-daban na ƙarfin haske (misali, haske mai ƙarfi, daidaitaccen haske). Wannan yana ba masu zane damar zaɓar sassa waɗanda suka dace da takamaiman buƙatun haske don aikace-aikacensu, yana tabbatar da daidaito a cikin aikin nuni na samfurin ƙarshe. Masu zane ya kamata su tuntubi cikakkun takaddun binning na masana'anta don takamaiman ma'auni na zaɓi.\n\n4. Bincike na Lanƙwasa Ayyuka\nTakardun bayanan tana nuni zuwa ga Lanƙwasa Halayen Lantarki/Gani na Yau da Kullun. Ko da yake ba a cikakken bayyana takamaiman lanƙwasan a cikin rubutun da aka bayar ba, irin waɗannan jadawali waɗanda galibi ake haɗawa a cikin cikakkun takaddun bayanai suna da mahimmanci don ƙira. Da alama za su nuna alaƙa tsakanin halin yanzu na gaba (IF) da ƙarfin lantarki na gaba (VF) don zafin jiki da ƙirar direba, alaƙar tsakanin ƙarfin haske da halin yanzu na gaba don inganta haske da amfani da wutar lantarki, da bambancin ƙarfin haske tare da yanayin zafi na muhalli. Fahimtar waɗannan lanƙwasan yana ba injiniyoyi damar yin hasashen aiki a ƙarƙashin yanayin da ba daidai ba kuma su ƙirƙira tsarin ƙarfi.\n\n5. Bayanin Injiniya da Kunshin
- 5.1 Haɗin Fil da Ƙa'idar Ƙa'idar
- 6. Jagororin Solder da Taro
- 7. Bayanin Kunshin da Oda
- 8. Shawarwarin Aikace-aikace
- 8.1 Yanayin Aikace-aikace na Yau da Kullun
- 8.2 Abubuwan Tunani na Ƙira
- 9. Kwatancen Fasaha
- 10. Tambayoyin da ake yawan yi (FAQs)
- 11. Harka na Ƙira na Aiki
- 12. Gabatarwar Ƙa'idar Fasaha
- 13. Trends na Fasaha
1. Bayanin Samfur
LTP-757KY ƙaramin tsari ne, babban aikin nuni LED mai tsarin 5x7 na dot matrix. Babban aikinsa shine samar da bayyanannen lambobi da alamomi a cikin na'urorin lantarki daban-daban. Babban fa'idar wannan na'urar yana cikin amfani da ci-gaban fasahar AlInGaP (Aluminum Indium Gallium Phosphide) don guntu LED, wanda aka sani da ingantacciyar inganci da tsaftar launi idan aka kwatanta da tsofaffin fasahohi. Wannan yana haifar da kyakkyawan bayyanar haruffa tare da haske mai ƙarfi da bambanci, yana mai da shi dacewa da aikace-aikacen da karantawa ke da mahimmanci, ko da a ƙarƙashin yanayin haske daban-daban. An rarraba na'urar don ƙarfin haske, yana tabbatar da daidaiton aiki a cikin rukunin samarwa. Ƙarancin buƙatun wutar lantarki da amincin ƙwaƙƙwaran jiki sun sa ya zama zaɓi mai kyau don kayan lantarki na mabukaci, kayan aikin masana'antu, tashoshin siyarwa, da sauran tsarin da aka haɗa waɗanda ke buƙatar madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin madaidaicin 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. Technical Specifications Deep Dive
.1 Optical Characteristics
The optical performance is defined by several key parameters measured at an ambient temperature (TA) of 25°C. TheAverage Luminous Intensity (IV)has a typical value of 3400 µcd under a test condition of IP=32mA and a 1/16 duty cycle. This parameter indicates the perceived brightness of the display. ThePeak Emission Wavelength (λp)is typically 595 nm, which falls within the amber yellow portion of the visible spectrum. TheSpectral Line Half-Width (Δλ)is 15 nm, indicating a relatively narrow and pure color emission. TheDominant Wavelength (λd)is 592 nm. It is important to note that luminous intensity measurements use a sensor and filter combination that approximates the CIE photopic eye-response curve, ensuring the values correlate with human visual perception. TheLuminous Intensity Matching Ratio (IV-m)is specified as a maximum of 2:1, which defines the allowable variation in brightness between individual segments or dots to ensure uniform appearance.
.2 Electrical Characteristics
The electrical parameters define the operating limits and conditions for the device. TheForward Voltage per dot (VF)typically ranges from 2.05V to 2.6V at a forward current (IF) of 20mA. TheReverse Current per dot (IR)is a maximum of 100 µA when a reverse voltage (VR) of 5V is applied. These values are critical for designing the appropriate driving circuitry.
.3 Absolute Maximum Ratings
These ratings specify the limits beyond which permanent damage to the device may occur. They are not for continuous operation. Key ratings include:Average Power Dissipation per dot(25 mW),Peak Forward Current per dot(60 mA), andAverage Forward Current per dot(13 mA at 25°C, derating linearly at 0.17 mA/°C). The maximumReverse Voltage per dotis 5V. The device can operate and be stored within aTemperature Rangeof -35°C to +85°C. TheSolder Temperaturerating specifies that the device can withstand 260°C for 3 seconds at a point 1/16 inch below the seating plane, which is crucial for reflow soldering processes.
. Binning System Explanation
The datasheet indicates that the device iscategorized for luminous intensity. This implies a binning system based on measured light output. While specific bin codes are not listed in this document, such a system typically groups devices into different intensity ranges (e.g., high-brightness, standard-brightness). This allows designers to select parts that meet specific brightness requirements for their application, ensuring consistency in the final product's display performance. Designers should consult the manufacturer's detailed binning documentation for precise selection criteria.
. Performance Curve Analysis
The datasheet referencesTypical Electrical/Optical Characteristic Curves. Although the specific curves are not detailed in the provided text, such graphs typically included in full datasheets are essential for design. They would likely show the relationship between forward current (IF) and forward voltage (VF) for thermal and driver design, the relationship between luminous intensity and forward current to optimize brightness vs. power consumption, and the variation of luminous intensity with ambient temperature. Understanding these curves allows engineers to predict performance under non-standard conditions and design robust systems.
. Mechanical and Package Information
The LTP-757KY features a specific package with a gray face and white dots for enhanced contrast. Thedigit heightis 0.7 inches (17.22 mm). The providedPackage Dimensionsdrawing (not fully detailed here) would show the exact physical outline, lead spacing, and overall size in millimeters, with standard tolerances of ±0.25 mm. This information is vital for PCB footprint design and ensuring proper fit within the end product's enclosure.
.1 Pin Connection and Polarity
The device has a 12-pin configuration. The pinout is as follows: Pin 1 (Cathode Column 1), Pin 2 (Anode Row 3), Pin 3 (Cathode Column 2), Pin 4 (Anode Row 5), Pin 5 (Anode Row 6), Pin 6 (Anode Row 7), Pin 7 (Cathode Column 4), Pin 8 (Cathode Column 5), Pin 9 (Anode Row 4), Pin 10 (Cathode Column 3), Pin 11 (Anode Row 2), Pin 12 (Anode Row 1). TheInternal Circuit Diagramshows a matrix arrangement where each LED dot (at the intersection of a row anode and a column cathode) can be individually addressed through multiplexing. Correct identification of anode and cathode pins is critical to prevent reverse bias and ensure proper circuit operation.
. Soldering and Assembly Guidelines
The key assembly specification provided is thesoldering temperature profile. The device can withstand a peak temperature of 260°C for a maximum of 3 seconds, measured 1/16 inch (approximately 1.6 mm) below the seating plane. This is a standard rating for lead-free reflow soldering processes. Designers must ensure their reflow oven profile complies with this limit to prevent thermal damage to the LED chips or the package. General handling precautions should be observed, such as avoiding mechanical stress on the leads and protecting the display face from scratches or contamination. Storage should be within the specified temperature range of -35°C to +85°C in a dry environment.
. Packaging and Ordering Information
The part number is clearly identified asLTP-757KY. While specific packaging details (e.g., tape and reel, tube quantities) are not listed in this excerpt, the part number itself is the primary identifier for ordering. The "KY" suffix likely denotes the amber yellow color. Engineers should confirm the exact packaging format with the supplier or distributor when placing orders.
. Application Recommendations
.1 Typical Application Scenarios
This display is well-suited for applications requiring compact, low-power, and highly readable numeric or limited character output. Common uses include: digital panel meters, weighing scales, medical monitoring equipment, household appliance displays (ovens, thermostats), industrial control panels, and basic information displays in various electronic devices.
.2 Design Considerations
- Drive Circuitry:A multiplexing driver circuit is required due to the 5x7 matrix configuration. This involves sequentially activating the row anodes while providing the appropriate column cathode signals to illuminate the desired dots. Integrated display driver ICs are commonly used for this purpose.
- Current Limiting:External current-limiting resistors are mandatory for each anode or column line (depending on the drive scheme) to ensure the forward current per dot does not exceed the absolute maximum ratings, especially the average current.
- Power Dissipation:The average power dissipation per dot (25 mW max) must be considered when designing for maximum brightness, especially if multiple dots are illuminated simultaneously for extended periods.
- Viewing Angle:The wide viewing angle is beneficial, but the mounting position within the final product should be evaluated to ensure optimal readability for the end-user.
. Technical Comparison
The primary differentiator of the LTP-757KY is its use ofAlInGaP LED technology. Compared to older technologies like standard GaAsP (Gallium Arsenide Phosphide) LEDs, AlInGaP offers significantly higher luminous efficiency, resulting in greater brightness for the same input current. It also provides better color saturation and stability over temperature and time. When compared to other package types (e.g., discrete LEDs arranged in a matrix), this integrated dot matrix module offers simplified assembly, guaranteed mechanical alignment of the dots, and a uniform optical appearance due to the gray face and white dots.
. Frequently Asked Questions (FAQs)
Q: What is the purpose of the 1/16 duty cycle mentioned in the luminous intensity test condition?
A: The 1/16 duty cycle is a standard test method for multiplexed displays. It means each segment is pulsed on for 1/16th of the total cycle time. The specified luminous intensity value is an average measured under this condition, which simulates typical multiplexed operation. The peak current during the on-time is higher than the average current.
Q: How do I interpret the Luminous Intensity Matching Ratio of 2:1?
A: This ratio indicates that the brightest dot or segment in the display will be no more than twice as bright as the dimmest dot or segment under identical driving conditions. A lower ratio (e.g., 1.5:1) indicates better uniformity. This parameter is important for ensuring a consistent, non-patchy appearance across all characters.
Q: Can I drive this display with a constant DC current instead of multiplexing?
A: Technically, you could, but it is highly inefficient and impractical. Driving all 35 dots simultaneously at their typical current would require a very high total current and cause excessive power dissipation and heat. Multiplexing is the standard and intended method of operation, significantly reducing the number of required driver pins and overall power consumption.
. Practical Design Case
Consider designing a simple digital voltmeter display. The microcontroller reads an analog voltage, converts it to a digital value, and needs to show a 3-digit reading (e.g., 5.12V). The LTP-757KY would be used for each digit. The design steps would involve: 1) Creating a PCB footprint matching the mechanical dimensions and pinout. 2) Selecting a multiplexing driver IC compatible with a 5x7 matrix and the microcontroller's interface (e.g., SPI, I2C). 3) Calculating current-limiting resistor values based on the driver's output voltage and the LED's typical forward voltage to achieve the desired average current (e.g., 10-15mA per dot). 4) Programming the microcontroller to decode the numeric value into the correct segment patterns for the 5x7 font and control the multiplexing timing. 5) Ensuring the power supply can handle the peak current demands during multiplexing cycles.
. Technology Principle Introduction
The LTP-757KY is based onAlInGaP (Aluminum Indium Gallium Phosphide)semiconductor material grown on a non-transparent GaAs (Gallium Arsenide) substrate. When a forward voltage is applied across the p-n junction of the LED chip, electrons and holes recombine, releasing energy in the form of photons. The specific composition of the AlInGaP alloy determines the bandgap energy, which directly corresponds to the wavelength (color) of the emitted light—in this case, amber yellow (~592-595 nm). The non-transparent substrate helps improve contrast by absorbing stray light. The individual LED chips are arranged in a 5x7 grid and interconnected internally to form the matrix, with external pins providing access to the rows (anodes) and columns (cathodes).
. Technology Trends
While AlInGaP remains a high-performance technology for red, orange, amber, and yellow LEDs, the broader LED industry continues to evolve. Trends include the pursuit of even higher luminous efficacy (lumens per watt) across all colors. For display applications, there is a move towards finer pitch matrices and full-color RGB capabilities. However, for monochromatic, character-based displays requiring high reliability, excellent readability, and cost-effectiveness, devices like the LTP-757KY based on mature technologies like AlInGaP continue to be a robust and widely adopted solution. The integration of drivers and controllers directly with the display module is also a common trend to simplify end-product design.
Kalmomin Ƙayyadaddun LED
Cikakken bayanin kalmomin fasaha na LED
Aikin Hasken Wutar Lantarki
| Kalma | Naúrar/Wakilci | Bayanin Sauri | Me yasa yake da muhimmanci |
|---|---|---|---|
| Ingancin Hasken Wuta | lm/W (lumen kowace watt) | Fitowar haske kowace watt na wutar lantarki, mafi girma yana nufin mafi ingancin kuzari. | Kai tsaye yana ƙayyade matakin ingancin kuzari da farashin wutar lantarki. |
| Gudun Hasken Wuta | lm (lumen) | Jimillar hasken da tushe ke fitarwa, ana kiransa "haske". | Yana ƙayyade ko hasken yana da haske sosai. |
| Kusurwar Dubawa | ° (digiri), misali 120° | Kusurwar da ƙarfin haske ya ragu zuwa rabi, yana ƙayyade faɗin haske. | Yana shafar kewar haskakawa da daidaito. |
| Zafin Launi (CCT) | K (Kelvin), misali 2700K/6500K | Zafi/sanyin haske, ƙananan ƙimomi rawaya/zafi, mafi girma fari/sanyi. | Yana ƙayyade yanayin haskakawa da yanayin da suka dace. |
| CI / Ra | Ba naúrar, 0–100 | Ikon ba da launukan abubuwa daidai, Ra≥80 yana da kyau. | Yana shafar sahihancin launi, ana amfani dashi a wurare masu buƙatu kamar shaguna, gidajen tarihi. |
| SDCM | Matakan ellipse MacAdam, misali "5-mataki" | Ma'aunin daidaiton launi, ƙananan matakai suna nufin mafi daidaiton launi. | Yana tabbatar da daidaiton launi a cikin rukunin LED iri ɗaya. |
| Matsakaicin Tsawon Raɗaɗin Hasken | nm (nanomita), misali 620nm (ja) | Tsawon raɗaɗin haske daidai da launin LED masu launi. | Yana ƙayyade launin ja, rawaya, kore LED masu launi ɗaya. |
| Rarraba Bakan Hasken | Layin tsawon raɗaɗi da ƙarfi | Yana nuna rarraba ƙarfi a cikin tsawon raɗaɗin haske. | Yana shafar ba da launi da ingancin launi. |
Ma'auni na Lantarki
| Kalma | Alamar | Bayanin Sauri | Abubuwan ƙira |
|---|---|---|---|
| Ƙarfin lantarki na gaba | Vf | Mafi ƙarancin ƙarfin lantarki don kunna LED, kamar "maƙallan farawa". | Ƙarfin lantarki na injin dole ya zama ≥Vf, ƙarfin lantarki yana ƙara don LED a jere. |
| Ƙarfin lantarki na gaba | If | Ƙimar ƙarfin lantarki don aikin LED na yau da kullun. | Yawanci tuƙi mai ƙarfi akai-akai, ƙarfin lantarki yana ƙayyade haske da tsawon rai. |
| Matsakaicin Ƙarfin lantarki na bugun jini | Ifp | Matsakaicin ƙarfin lantarki mai jurewa na ɗan lokaci, ana amfani dashi don duhu ko walƙiya. | Fadin bugun jini da sake zagayowar aiki dole ne a sarrafa su sosai don guje wa lalacewa. |
| Ƙarfin lantarki na baya | Vr | Matsakaicin ƙarfin lantarki na baya da LED zai iya jurewa, wanda ya wuce zai iya haifar da rushewa. | Dangane dole ne ya hana haɗin baya ko ƙarfin lantarki. |
| Juriya na zafi | Rth (°C/W) | Juriya ga canja wurin zafi daga guntu zuwa solder, ƙasa yana da kyau. | Babban juriya na zafi yana buƙatar zubar da zafi mai ƙarfi. |
| Rigakafin ESD | V (HBM), misali 1000V | Ikon jurewa zubar da wutar lantarki, mafi girma yana nufin ƙasa mai rauni. | Ana buƙatar matakan hana wutar lantarki a cikin samarwa, musamman ga LED masu hankali. |
Gudanar da Zafi & Amincewa
| Kalma | Ma'aunin maɓalli | Bayanin Sauri | Tasiri |
|---|---|---|---|
| Zazzabin Haɗin gwiwa | Tj (°C) | Ainihin yanayin aiki a cikin guntun LED. | Kowane raguwa 10°C na iya ninka tsawon rai; yayi yawa yana haifar da lalacewar haske, canjin launi. |
| Ragewar Lumen | L70 / L80 (sa'o'i) | Lokacin da haske ya ragu zuwa 70% ko 80% na farko. | Kai tsaye yana ayyana "tsawon sabis" na LED. |
| Kula da Lumen | % (misali 70%) | Kashi na hasken da aka riƙe bayan lokaci. | Yana nuna riƙon haske akan amfani na dogon lokaci. |
| Canjin Launi | Δu′v′ ko ellipse MacAdam | Matsakaicin canjin launi yayin amfani. | Yana shafar daidaiton launi a cikin yanayin haskakawa. |
| Tsufa na Zafi | Lalacewar kayan aiki | Lalacewa saboda yanayin zafi na dogon lokaci. | Zai iya haifar da raguwar haske, canjin launi, ko gazawar buɗe kewaye. |
Tufafi & Kayan Aiki
| Kalma | Nau'ikan gama gari | Bayanin Sauri | Siffofi & Aikace-aikace |
|---|---|---|---|
| Nau'in Kunshin | EMC, PPA, Yumbu | Kayan gida masu kare guntu, samar da hanyar sadarwa ta gani/zafi. | EMC: juriya mai kyau na zafi, farashi mai rahusa; Yumbu: mafi kyawun zubar da zafi, tsawon rai. |
| Tsarin Guntu | Gaba, Guntu Juyawa | Tsarin na'urorin lantarki na guntu. | Juyawar guntu: mafi kyawun zubar da zafi, inganci mafi girma, don ƙarfi mai ƙarfi. |
| Rufin Phosphor | YAG, Silicate, Nitride | Yana rufe guntu shuɗi, yana canza wasu zuwa rawaya/ja, yana haɗa su zuwa fari. | Phosphor daban-daban suna shafar inganci, CCT, da CRI. |
| Ruwan tabarau/Optics | Lefi, Microlens, TIR | Tsarin gani a saman yana sarrafa rarraba haske. | Yana ƙayyade kusurwar dubawa da layin rarraba haske. |
Kula da Inganci & Rarraba
| Kalma | Abun rarraba | Bayanin Sauri | Manufa |
|---|---|---|---|
| Kwalin Gudun Hasken | Lambar misali 2G, 2H | An tattara su ta hanyar haske, kowace ƙungiya tana da ƙananan/matsakaicin ƙimar lumen. | Yana tabbatar da daidaiton haske a cikin jeri ɗaya. |
| Kwalin Ƙarfin lantarki | Lambar misali 6W, 6X | An tattara su ta hanyar kewayon ƙarfin lantarki na gaba. | Yana sauƙaƙe daidaitawar tuƙi, yana inganta ingancin tsarin. |
| Kwalin Launi | Ellipse MacAdam 5-mataki | An tattara su ta hanyar daidaitattun launi, yana tabbatar da ƙuntataccen kewayon. | Yana ba da garantin daidaiton launi, yana guje wa launi mara daidaituwa a cikin kayan aikin. |
| Kwalin CCT | 2700K, 3000K da sauransu | An tattara su ta hanyar CCT, kowanne yana da madaidaicin kewayon daidaitawa. | Yana cika buƙatun CCT na yanayi daban-daban. |
Gwaji & Takaddun Shaida
| Kalma | Matsakaicin/Gwaji | Bayanin Sauri | Muhimmanci |
|---|---|---|---|
| LM-80 | Gwajin kula da lumen | Haskakawa na dogon lokaci a yanayin zafi akai-akai, yana rikodin lalacewar haske. | Ana amfani dashi don kimanta rayuwar LED (tare da TM-21). |
| TM-21 | Matsakaicin kimanta rayuwa | Yana kimanta rayuwa a ƙarƙashin yanayi na ainihi bisa bayanan LM-80. | Yana ba da hasashen kimiyya na rayuwa. |
| IESNA | Ƙungiyar Injiniyoyin Haskakawa | Yana rufe hanyoyin gwajin gani, lantarki, zafi. | Tushen gwaji da masana'antu suka amince. |
| RoHS / REACH | Tabbatarwar muhalli | Yana tabbatar da babu abubuwa masu cutarwa (darma, mercury). | Bukatar shiga kasuwa a duniya. |
| ENERGY STAR / DLC | Tabbatarwar ingancin kuzari | Tabbatarwar ingancin kuzari da aiki don samfuran haskakawa. | Ana amfani dashi a cikin sayayyan gwamnati, shirye-shiryen tallafi, yana haɓaka gasa. |