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Takardar Bayani na Fasaha na LED SMD LTST-M140TBKT - Girman 3.2x2.8x1.9mm - Ƙarfin Wutar Lantarki 2.8-3.8V - Ƙarfin Wuta 80mW - Launi Shudi - Takardun Fasaha na Hausa

Takardar bayani ta fasaha don LED SMD LTST-M140TBKT. Abubuwan da ke ciki sun haɗa da launin shuɗi (465-475nm), kusurwar kallo na digiri 120, ƙarfin haske 140-450 mcd, da dacewa da aikin siyar da IR reflow.
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Gida » Takaddun » Takardar Bayani na Fasaha na LED SMD LTST-M140TBKT - Girman 3.2x2.8x1.9mm - Ƙarfin Wutar Lantarki 2.8-3.8V - Ƙarfin Wuta 80mW - Launi Shudi - Takardun Fasaha na Hausa

Teburin Abubuwan Ciki

1. Bayyani Game da Samfur

LTST-M140TBKT na'urar haske ce mai ƙarfi (LED) da aka tsara don aikace-aikacen lantarki na zamani masu ƙarancin sarari. Ƙaramin girmansa da daidaitaccen kunshin EIA sun sa ya zama mai kyau ga layukan haɗawa na atomatik, wanda ke haɓaka ingancin samarwa sosai. An gina na'urar ta amfani da fasahar InGaN (Indium Gallium Nitride), wacce ke da alhakin fitar da hasken shuɗi mai inganci. Ruwan tabarau na farko yana da tsabta, yana ba da damar fitar da ainihin launin hasken ba tare da canza launi ba.

Babban fa'idodin wannan LED sun haɗa da bin ka'idojin muhalli na RoHS, tare da cikakkiyar dacewa da hanyoyin siyar da IR reflow marasa gubar (Pb-free). Wannan ya sa ya dace da samarwa mai yawa. Tsarinsa yana nufin kasuwa mai faɗi, ciki har da kayan aikin sadarwa (kamar alamun yanayi akan na'urorin hanyar sadarwa da modem), na'urori na sarrafa ofis (firintoci, na'urori), na'urorin gida, allunan sarrafa masana'antu, da alamun cikin gida inda ake buƙatar hasken nuni mai dogon lokaci.

2. Fahimtar Ma'anar Ma'auni na Fasaha

2.1 Matsakaicin Matsakaicin Ma'auni

Waɗannan ma'auni suna ayyana iyakokin da za su iya haifar da lalacewa ta dindindin ga LED. Ba a ba da shawarar aiki da na'urar akai-akai a ko kusa da waɗannan iyakokin ba. Matsakaicin matsakaicin ma'auni a yanayin zafin yanayi (Ta) na 25°C kamar haka:

2.2 Halayen Lantarki da Hasken Gani

Ana auna waɗannan ma'auni a ƙarƙashin daidaitattun yanayin gwaji (Ta=25°C, IF=20mA) kuma suna ayyana aikin LED.

. Binning System Explanation

To ensure consistency in mass production, LEDs are sorted into performance bins. The LTST-M140TBKT uses a three-dimensional binning system.

.1 Forward Voltage (VF) Rank

LEDs are binned based on their forward voltage drop at 20mA. This helps in designing stable driver circuits, especially when multiple LEDs are connected in series. The bins are: D7 (2.8-3.0V), D8 (3.0-3.2V), D9 (3.2-3.4V), D10 (3.4-3.6V), D11 (3.6-3.8V). Tolerance for each bin is ±0.1V.

.2 Luminous Flux/Intensity Rank

This binning categorizes LEDs by their total light output. It ensures a uniform brightness level in an array. The bins are: C2 (0.42-0.54 Lm / 140-180 mcd), D1 (0.54-0.67 Lm / 180-224 mcd), D2 (0.67-0.84 Lm / 224-280 mcd), E1 (0.84-1.07 Lm / 280-355 mcd), E2 (1.07-1.35 Lm / 355-450 mcd). Luminous Intensity is provided for reference with a tolerance of ±11% per bin.

.3 Hue (Dominant Wavelength) Rank

This binning ensures color consistency. The dominant wavelength bins are: AC (465.0-470.0 nm) and AD (470.0-475.0 nm). The tolerance is ±1 nm within the bin. This tight control is vital for applications where precise color matching is required, such as in multi-color indicator clusters or backlighting.

. Performance Curve Analysis

While specific graphical curves are referenced in the datasheet, their implications are critical for design.

. Mechanical and Package Information

.1 Package Dimensions

The LED conforms to a standard SMD package outline. Key dimensions include a typical length of 3.2mm, width of 2.8mm, and height of 1.9mm. All dimensions have a tolerance of ±0.2mm unless otherwise specified. The cathode is typically identified by a marking on the package or a chamfered corner.

.2 Recommended PCB Attachment Pad Layout

A land pattern diagram is provided to ensure proper solder joint formation during reflow. Following this recommendation prevents issues like tombstoning (one end lifting) or insufficient solder. The pad design accounts for thermal mass and promotes reliable soldering.

. Soldering and Assembly Guidelines

.1 IR Reflow Soldering Profile

The datasheet provides a detailed temperature profile compliant with J-STD-020B for lead-free processes. Key parameters include: a pre-heat zone (150-200°C, max 120 sec), a peak temperature not exceeding 260°C, and a time above liquidus (TAL) appropriate for the solder paste used. Adhering to this profile is critical to prevent thermal damage to the LED's epoxy lens and internal die bonds.

.2 Storage and Handling

The LEDs are moisture-sensitive (MSL Level 3). In their sealed moisture-proof bag with desiccant, they have a shelf life of one year when stored at ≤30°C and ≤70% RH. Once the bag is opened, components must be used within 168 hours (1 week) under conditions of ≤30°C and ≤60% RH. If this exposure time is exceeded, a bake-out at approximately 60°C for at least 48 hours is required before soldering to remove absorbed moisture and prevent \"popcorning\" during reflow.

.3 Cleaning

If cleaning after soldering is necessary, only alcohol-based solvents like isopropyl alcohol (IPA) or ethyl alcohol should be used. The LED should be immersed at normal temperature for less than one minute. Harsh or unspecified chemicals can damage the package material and optical properties.

. Packaging and Ordering Information

The standard packaging is in 12mm wide embossed carrier tape on 7-inch (178mm) diameter reels. Each reel contains 3000 pieces. The tape and reel specifications comply with ANSI/EIA 481. For smaller quantities, a minimum packing of 500 pieces is available. The tape is sealed with a cover tape to protect components during shipping and handling.

. Application Suggestions

.1 Typical Application Scenarios

.2 Design Considerations

. Technical Comparison and Differentiation

Compared to generic blue SMD LEDs, the LTST-M140TBKT offers distinct advantages: a standardized and well-documented binning system for predictable performance, a wide 120-degree viewing angle for excellent off-axis visibility, and guaranteed compatibility with lead-free IR reflow processes, which is essential for modern, RoHS-compliant manufacturing. Its detailed and conservative maximum ratings and application notes provide a higher degree of design reliability.

. Frequently Asked Questions (Based on Technical Parameters)

Q: Can I drive this LED with 3.3V without a resistor?

A: No. The forward voltage ranges from 2.8V to 3.8V. Connecting a 3.3V source directly could overcurrent an LED with a low VF(e.g., 2.9V), potentially destroying it. A current-limiting circuit is always required.

Q: Why is the luminous intensity given as a range and \"for reference\"?

A: Luminous flux (lumens) is the total light output, while intensity (candela) is light in a specific direction. For a wide-angle LED, total flux is a more meaningful metric. The intensity is provided as a helpful reference but varies greatly with viewing angle.

Q: What does \"I.C. compatible\" mean in the features?

A> It means the LED's electrical characteristics (like forward voltage and current requirements) are suitable for direct interfacing with standard integrated circuit (IC) outputs, such as microcontroller GPIO pins, typically through a simple transistor or resistor.

. Practical Design and Usage Case

Case: Designing a Multi-LED Status Bar:Imagine designing a status bar with 5 blue LEDs for a network switch. To ensure uniform brightness, specify LEDs from the same luminous flux bin (e.g., all from E1). To simplify the driver circuit, specify LEDs from a tight forward voltage bin (e.g., all D9). Connect them in parallel, each with its own current-limiting resistor calculated using the maximum VFfrom the bin. This approach compensates for natural VFvariations and prevents current hogging, leading to consistent light output across all indicators.

. Principle Introduction

This LED operates on the principle of electroluminescence in a semiconductor. The active region is made of InGaN. When a forward voltage is applied, electrons and holes are injected into the active region. When they recombine, energy is released in the form of photons (light). The specific composition of the InGaN alloy determines the bandgap energy, which directly corresponds to the wavelength (color) of the emitted light—in this case, blue. The water-clear epoxy lens encapsulates the semiconductor die, provides mechanical protection, and shapes the light output into the desired 120-degree viewing pattern.

. Development Trends

The general trend in SMD LEDs like this one is towards higher efficiency (more lumens per watt), which reduces power consumption and heat generation for the same light output. There is also a continuous drive for improved color consistency and tighter binning tolerances to meet the demands of high-end display and lighting applications. Furthermore, packaging technology is evolving to allow for even smaller form factors while maintaining or improving thermal performance and reliability. The compatibility with automated assembly and lead-free processes, as seen in this device, remains a fundamental industry standard.

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.