Takardar Bayanin Fasaha na SMD LED LTST-T180KGKT - Kallon 120° - 1.7-2.5V - 30mA - AlInGaP Kori

Teburin Abubuwan Ciki

1. Bayanin Samfur
1.1 Siffofi da Fa'idodi na Asali
1.2 Kasuwa da Aikace-aikace
2. Ma'auni na Fasaha: Cikakken Bayani na Haƙiƙa
2.1 Matsakaicin Matsakaicin Matsakaici
2.2 Halayen Zafi
2.3 Halayen Lantarki da Na Gani
. Bin Rank System Explanation
.1 Luminous Intensity (IV) Binning
.2 Dominant Wavelength (WD) Binning
. Performance Curve Analysis
. Mechanical and Package Information
.1 Package Dimensions
.2 Recommended PCB Attachment Pad Layout
.3 Polarity Identification
. Soldering and Assembly Guidelines
.1 IR Reflow Soldering Profile
.2 Storage Conditions
.3 Cleaning
. Packaging and Ordering Information
.1 Tape and Reel Specifications
.2 Model Numbering Rule
. Application Suggestions
.1 Typical Application Circuits
.2 Design Considerations
. Technical Comparison and Differentiation
. Frequently Asked Questions Based on Technical Parameters
. Practical Use Case Examples
. Principle of Operation Introduction
. Technology Trends
Kalmomin Ƙayyadaddun LED
Aikin Hasken Wutar Lantarki
Ma'auni na Lantarki
Gudanar da Zafi & Amincewa
Tufafi & Kayan Aiki
Kula da Inganci & Rarraba
Gwaji & Takaddun Shaida

1. Bayanin Samfur

Wannan takarda ta bayyana cikakkun bayanai game da ƙaramin LED da aka tsara don sarrafawa ta atomatik. Na'urar tana amfani da fasahar AlInGaP (Aluminum Indium Gallium Phosphide) don samar da haske kori, tana ba da daidaiton aiki da inganci wanda ya dace da aikace-aikacen lantarki na zamani.

1.1 Siffofi da Fa'idodi na Asali

An tsara wannan LED don aminci da sauƙin haɗawa. Muhimman siffofi sun haɗa da bin ka'idojin muhalli na RoHS, shiryawa a kan tef 8mm a cikin reels na inci 7 don tsarin ɗauka da sanyawa ta atomatik, da kuma dacewa da hanyoyin siyar da guduro ta infrared. Tsarinsa ya dace da I.C. kuma ya cika ma'aunin girma na EIA, yana tabbatar da fa'ida mai yawa.

1.2 Kasuwa da Aikace-aikace

Wannan ɓangaren an yi niyya ne don ƙananan sararin samaniya da tarin tarin lantarki. Manyan wuraren aikace-aikace sun haɗa da kayan aikin sadarwa, na'urori na sarrafa ofis, na'urorin gida, da tsarin sarrafa masana'antu. Ana amfani da shi akai-akai don nuna matsayi, hasken sigina da alama, da hasken baya na gaban panel.

2. Ma'auni na Fasaha: Cikakken Bayani na Haƙiƙa

2.1 Matsakaicin Matsakaicin Matsakaici

An ayyana iyakokin aiki a yanayin zafi na muhalli (Ta) na 25°C. Matsakaicin ƙarfin watsawa shine 75mW. Na'urar na iya ɗaukar matsakaicin igiyar ruwa na gaba na 80mA a ƙarƙashin yanayin bugun jini (1/10 aikin aiki, 0.1ms faɗin bugun jini), yayin da ƙimar igiyar ruwa ta DC ta ci gaba shine 30mA. An ƙayyade kewayon zafin aiki da ajiya daga -40°C zuwa +100°C.

2.2 Halayen Zafi

Matsakaicin zafin haɗin gwiwa (Tj) shine 115°C. Matsakaicin juriyar zafi daga haɗin gwiwa zuwa muhalli (Rθj-a) shine 140°C/W. Wannan ma'auni yana da mahimmanci don ƙirar sarrafa zafi, yana nuna yadda ake fitar da zafi daga haɗin gwiwar semiconductor.

2.3 Halayen Lantarki da Na Gani

An auna a Ta=25°C da gwajin igiyar ruwa (IF) na 20mA, ƙarfin haske (Iv) ya bambanta daga mafi ƙarancin 56.0 mcd zuwa matsakaicin 180.0 mcd. Kallon kusurwa (2θ1/2), wanda aka ayyana shi azaman cikakken kusurwar da ƙarfin ya ragu zuwa rabin ƙimar axial, yana da faɗin digiri 120. 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tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon tsawon

. Bin Rank System Explanation

The product is sorted into bins based on key performance parameters to ensure consistency for the end-user.

.1 Luminous Intensity (IV) Binning

LEDs are categorized into specific bins according to their measured luminous intensity at 20mA. The bin codes (P2, Q1, Q2, R1, R2) define minimum and maximum intensity ranges, from 56.0-71.0 mcd (P2) up to 140.0-180.0 mcd (R2). A tolerance of +/-11% applies within each intensity bin.

.2 Dominant Wavelength (WD) Binning

Similarly, the dominant wavelength is binned to control color consistency. Bin codes C, D, E, and F correspond to wavelength ranges: C (566-569 nm), D (569-572 nm), E (572-575 nm), and F (575-578 nm). The tolerance for each wavelength bin is +/- 1 nm.

. Performance Curve Analysis

Typical performance curves provide insight into device behavior under varying conditions. These include the relationship between forward current and luminous intensity (I-V curve), the effect of ambient temperature on light output, and the spectral power distribution showing the concentration of emitted light around the peak wavelength. Analyzing these curves helps designers optimize drive conditions and understand performance trade-offs.

. Mechanical and Package Information

.1 Package Dimensions

The device conforms to a standard SMD footprint. All critical dimensions, including length, width, height, and pad spacing, are provided in millimeters with a general tolerance of ±0.2 mm unless otherwise specified. The lens is clear.

.2 Recommended PCB Attachment Pad Layout

A land pattern design is recommended for reliable soldering, particularly for infrared or vapor phase reflow processes. This layout ensures proper solder fillet formation and mechanical stability.

.3 Polarity Identification

The cathode is typically indicated by a marking on the package body or a specific pad geometry (e.g., a notch or a chamfered corner on the footprint). Correct polarity orientation is essential for circuit function.

. Soldering and Assembly Guidelines

.1 IR Reflow Soldering Profile

A suggested reflow profile compliant with J-STD-020B for lead-free processes is provided. Key parameters include a preheat zone, a defined time above liquidus, and a peak temperature not exceeding 260°C. The total time within 5°C of the peak temperature should be limited. Adherence to the solder paste manufacturer's specifications is also critical.

.2 Storage Conditions

For unopened moisture-sensitive packaging (with desiccant), storage should be at ≤ 30°C and ≤ 70% RH, with a recommended use-within period of one year. Once opened, components should be stored at ≤ 30°C and ≤ 60% RH. If exposed beyond 168 hours, a bake-out at approximately 60°C for at least 48 hours is recommended before soldering to prevent moisture-induced damage (popcorning).

.3 Cleaning

If cleaning is necessary after soldering, only specified solvents like ethyl alcohol or isopropyl alcohol should be used. The LEDs should be immersed at normal temperature for less than one minute. Unspecified chemicals may damage the package.

. Packaging and Ordering Information

.1 Tape and Reel Specifications

The LEDs are supplied on 8mm wide embossed carrier tape wound onto 7-inch (178mm) diameter reels. Standard reel quantity is 5000 pieces. A minimum packing quantity of 500 pieces applies for remainder lots. The packaging conforms to ANSI/EIA 481 specifications.

.2 Model Numbering Rule

The part number LTST-T180KGKT encodes specific attributes: likely indicating the series, package type, color (G for Green), and performance bin. The exact decoding may follow an internal scheme.

. Application Suggestions

.1 Typical Application Circuits

As a current-driven device, the LED should be driven using a constant current source or a voltage source with a series current-limiting resistor. The resistor value can be calculated using Ohm's Law: R = (Vcc - VF) / IF, where Vcc is the supply voltage, VF is the LED forward voltage (use max value for reliability), and IF is the desired forward current (≤ 30mA DC).

.2 Design Considerations

Consider thermal management on the PCB, especially when operating at high currents or in elevated ambient temperatures, due to the 140°C/W thermal resistance. Ensure the PCB pad design matches the recommended layout for reliable soldering. Account for the wide 120-degree viewing angle when designing light guides or indicator apertures.

. Technical Comparison and Differentiation

Compared to older technology like GaP (Gallium Phosphide) green LEDs, AlInGaP offers higher efficiency and brighter output. The 120-degree viewing angle is wider than many “low-profile” LEDs, providing a broader emission pattern suitable for status indicators that need to be visible from various angles. Its compatibility with standard IR reflow processes differentiates it from LEDs that require manual or wave soldering.

. Frequently Asked Questions Based on Technical Parameters

Q: What is the difference between peak wavelength and dominant wavelength?

A: Peak wavelength (λP) is the single wavelength at which the emission spectrum has its maximum intensity. Dominant wavelength (λd) is the single wavelength of monochromatic light that matches the perceived color of the LED when compared to a reference white light. λd is more relevant for color specification.

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

A: No. Without a current-limiting resistor, the LED would attempt to draw excessive current, likely exceeding its absolute maximum rating and causing immediate failure. Always use a series resistor or constant-current driver.

Q: What does “Preconditioning: accelerate to JEDEC level 3” mean?

A: It indicates the moisture sensitivity level (MSL) of the package. MSL 3 means the component can be exposed to factory floor conditions (≤ 30°C/60% RH) for up to 168 hours (7 days) before it must be soldered or rebaked.

. Practical Use Case Examples

Case 1: Network Router Status Panel:Multiple LTST-T180KGKT LEDs can be used to indicate power, internet connectivity, Wi-Fi activity, and port status. Their wide viewing angle ensures visibility from across a room, and their compatibility with reflow soldering allows for cost-effective, automated assembly of the main PCB.

Case 2: Industrial Control HMI:Integrated into a membrane switch or behind a polycarbonate window, this LED provides a clear, green “System Ready” or “Machine On” indication. The defined wavelength binning ensures color consistency across all units on the production line.

. Principle of Operation Introduction

Light emission in this AlInGaP LED is based on electroluminescence. When a forward voltage is applied across the p-n junction, electrons and holes are injected into the active region. Their recombination releases energy in the form of photons (light). The specific composition of the Aluminum, Indium, Gallium, and Phosphide layers in the semiconductor crystal determines the bandgap energy, which directly defines the wavelength (color) of the emitted light—in this case, green.

. Technology Trends

The general trend in SMD LEDs is toward higher luminous efficacy (more light output per electrical watt), improved color consistency through tighter binning, and increased reliability under higher temperature soldering profiles. Package sizes continue to shrink for greater design flexibility, while maintaining or improving optical performance. There is also a strong focus on developing materials and processes that meet evolving environmental regulations beyond RoHS.

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.