Products Home高出力赤外線エミッター
- Pulsable Thermal Near-Blackbody IR Sources
- Available with Soldered Filter Windows
- TO-8 Can Package
- SM1-Threaded Mounting Adapter Available Separately
HPIR101
2 - 16 µm, No Window
HPIR103
2 - 14 µm, BaF2 Window,
Winston Cone
HPIR102
2 - 6 µm, Al2O3 Window
Application Idea
HPIR104 High-Power IR Emitter Mounted in the HPIRM SM1-Threaded Mounting Adapter
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当社の高出力赤外線エミッタの出力パワー(典型値)。その他の性能の詳細は「グラフ」タブをご覧ください。
| Key Specificationsa | ||||
|---|---|---|---|---|
| Item # | HPIR101 | HPIR102 | HPIR103 | HPIR104 |
| Wavelength Range | 2 - 16 µm | 2 - 6 µm | 2 - 14 µm | 2 - 11 µm |
| Window | N/A | Soldered Sapphire | Soldered BaF2 | Soldered CaF2 |
| Collimator | N/A | N/A | Winston Cone | |
| Gas Filling | N/A | N2 | ||
特長
- 広帯域放射(パルス出力可能)
- 黒体放射に近い放射特性
- ナノ構造の放射素子
- はんだ付けされたウィンドウ付き、またはウィンドウ無しでご用意
- TO-8 Can型パッケージ
- SM1外ネジ付き取付けアダプタもご用意(別売り)
当社の高出力赤外線エミッタはパルス出力が可能な黒体放射源で、放射面積は40 mm2、放射率は広いスペクトル範囲にわたって> 0.9です。各エミッタには自立型のモノリシックな放射素子が採用されており、コイル状のフィラメントと比べて効率、機械的安定性、耐衝撃性などが向上しています。放射素子は高融点の金属と、光の放射率を増大させるナノ構造の表面で作られています。最大効率が得られるよう、各エミッタには、背面からの放射を筐体の前方に向けるためのリフレクタも組み込まれています。
エミッタにはウィンドウ無しの製品(HPIR101)と、サファイア(HPIR102)、フッ化バリウム(BaF2)(HPIR103)、またはフッ化カルシウム(CaF2)(HPIR104)のウィンドウをはんだ付けしてハーメチックシールした製品がございます。 はんだ付けウィンドウの付いたエミッタは可燃性ガスの測定に適しています。はんだ付けウィンドウについてはリークテストを実施しており、また従来の接着剤を用いたウィンドウに比べて長期安定性が向上しています。すべての密封された赤外線エミッタには窒素ガスが充填されています。窒素ガス以外をご希望の場合は当社までお問い合わせください。HPIR103とHPIR104にはウィンストンコーン型のコリメータが用いられており、放射角が狭くなっています。
取付けアダプタHPIRMにはSM1外ネジが付いており、HPIRシリーズのエミッタを当社のØ25 mm~Ø25.4 mm(Ø1インチ)レンズチューブシステムまたはSM1ネジ付きキネマティックマウントに組み込むことができます。エミッタはØ17 mmの固定リングSM17RR(付属しています)でマウントHPIRMに保持しますが、その固定リングは当社の調整機能付きスパナレンチSPW801で締めることができます。アダプタをSM1ネジ付きレンズチューブまたはマウントに取り付ける際にはスパナレンチSPW909またはSPW801がご使用いただけます。
なお、エミッタの動作中は筐体が熱くなりますのでご注意ください。ヒートシンクを使用しなくてもエミッタは損傷することなく動作しますが、長期間動作させる場合には、取付けアダプタHPIRMにパッシブ型ヒートシンク付きレンズチューブHSLT2を組みあわせるなどして、適切にヒートシンクを使用されることをお勧めいたします。左はその例となります。
こちらのエミッタには、「仕様」タブに記載されている電流および電力の制限値を遵守する電源であれば使用することができますが、当社ではベーシックなドライバLEDD1Bのご使用をお勧めいたします。ドライバの接続ケーブルのワイヤを、エミッタのリード線に直接接続することができます。
| Item # | HPIR101 | HPIR102 | HPIR103 | HPIR104 |
|---|---|---|---|---|
| Wavelength Range | 2 - 16 µm | 2 - 6 µm | 2 - 14 µm | 2 - 11 µm |
| Radiating Element Emissivity | > 0.9 | |||
| Modulation Deptha | 70% at 2.5 Hz | |||
| Maximum Current | 660 mA | |||
| Maximum Voltage (Typical) | 3.8 V | |||
| Maximum Electrical Power (DC)b | 2.5 W | |||
| Electrical Resistance (Typical) | 5 - 6 Ω | |||
| Radiating Element Area (Emitter Size) | 40 mm2 | |||
| Housing Type | TO-8 | |||
| Window | N/A | Soldered Sapphire | Soldered BaF2 | Soldered CaF2 |
| Collimator | N/A | N/A | Winston Cone | |
| Gas Filling | N/A | N2 | ||
| Radiating Element Temperature (Typical) | 630 °C | |||
| Operating Temperature (Non-Condensing) | -25 °C to 85 °C | |||
| Storage Temperature | -25 °C to 85 °C | |||
| Typical Lifetime | > 30 000 h | |||
| Posted Comments: | |
Yuhan Mei
(posted 2025-07-10 16:04:13.05) Hello. I am trying to focus the long-wavelength IR light into a single small spot (~150*150um). We'd like to know how the light is originally collimated by the cone. The only visualization tools we have are two laser viewing cards VRC6. We have several ZnSe lenses and mirrors (we only need 8-10um wavelength). Could you offer any ideas? Thank you.
Best,
Yuhan hchow
(posted 2025-07-11 10:47:10.0) Dear Ms. Mei, thank you for your feedback. I will have to personally reach out to you to provide more data about the angular radiation distribution of the HPIR103, as this data is not present on the spec sheet. The best way to collimate the light from the HPIR103 is by using the setup seen on the webpage. In any case, I will reach out to you to provide more solutions. Thank you. Sophie Bagur
(posted 2025-05-16 13:34:59.58) I would like to use these IR sources to provide around 10ms IR pulses that would allow me to synchronize an thermal camera with other recording devices. I specifically need the source NOT to emit any visible light. Could you let me know if this seems possible with these products?
Thank you hkarpenko
(posted 2025-05-19 04:55:40.0) Dear Sophie,
thank you for your feedback. The emission in the visible wavelength range is not completely excluded. I will contact you directly to discuss your application in detail with you. SONIA PEREZ
(posted 2025-02-12 14:56:39.67) to Whom it may be concern
We are looking for and controlled spectral IR source from 2um to 14 or 15um.
We wonder if the HPIR103 could be controlled in terms of incremental steps in order to use it as a calibration equipment (spectral calibration). We do not sure how it can be done with the HPIR103.
Could you please help us?
Thank you in advance
SoniaP hchow
(posted 2025-02-13 04:03:32.0) Dear Ms. Perez, thank you for your feedback. I believe what you are asking for warrants more discussion from our side. I will get into contact with you to discuss this further. Thank you. TzuLing Chen
(posted 2024-08-08 12:25:41.987) We are looking to purchase a mid-infrared source for characterizing samples using the OSA207. I previously bought the SLS203F, but its intensity cannot be detected by the OSA207. Therefore, we are searching for another light source that covers the 3-6 µm spectrum of interest. Could you please check if the HPIR101 lamp can provide a strong signal when used with the OSA207 (free space coupling)?
Thank you for your assistance. hchow
(posted 2024-08-08 08:54:15.0) Dear Mr. Chen, I will require mode details of your setup. I will personally reach out to you to discuss your options. Thank you. MATTHEW SIMPSON
(posted 2024-06-02 06:54:32.07) like user 2 below, it would be helpful to have the angular distribution pattern of the HPIR03 device jjadvani
(posted 2024-06-03 05:26:29.0) Dear Simpson, Thank you for providing feedback. I will contact you directly to assist you with your data requirements. 諒一 芝山
(posted 2024-04-02 12:14:49.067) モジュール評価系への採用を検討しております。
zemaxで使用できる光源データ(NFP)を頂くことは可能でしょうか? dpossin
(posted 2024-04-02 10:58:02.0) Dear customer,
Thank you for your feedback. Unfortunately we can´t provide zemax files for our thermal emitters. I reach out to you in order to clarify open questions. Thomas Produit
(posted 2023-11-27 11:32:04.437) Hi,
Is there somewhere a graph explaining which pin to solder to which colored wire when hooking up for example the HPIR10X to the LEDD1B ?
Thanks in advance ! dpossin
(posted 2023-11-27 05:11:09.0) Hello Thomas,
Thank you for your feedback. Since our high power emitters are thermal emitters there is no prefered pin configuration. Either way it will work. dpossin
(posted 2023-11-27 05:11:09.0) Hello Thomas,
Thank you for your feedback. Since our high power emitters are thermal emitters there is no prefered pin configuration. Either way it will work. David Kappel
(posted 2023-11-11 09:18:12.32) Is there a graph of the angular output? Could I collimate with a lens? Is the angular output narrow enough to put a highpass thinfilm filter to narrow the spectrum? dpossin
(posted 2023-11-17 05:46:12.0) Dear Dave,
Thank you for your feedback. I´ll reach out to you directly in order to discuss you application in more detail. user
(posted 2023-06-02 08:31:52.077) How to connect safely the HPIR103 / HPIR104 pins to a power supply ? Do you provide any socket ? hchow
(posted 2023-06-02 11:28:01.0) Dear User, thank you for your feedback. We sell the HPIRM mount adapter for use with our High Power IR Emitters. user
(posted 2023-05-17 10:07:35.863) What's the angular emission pattern of 103? hchow
(posted 2023-05-18 09:54:08.0) Dear User, thank you for your feedback. I will personally reach out to you about this issue. Thank you. Sam Rubin
(posted 2022-10-19 09:16:35.833) can those be operated with a constant voltage supply? or do they require pulsed voltages.
Thanks
Sam dpossin
(posted 2022-10-21 06:08:44.0) Dear Sam,
Thank you for your feedback. In general the efficiency of the IR emitters is the highest when driven with constant voltage sources. However it is also possible to pulse them using pulsed sources. When doing so the average light intensity depends on the pulse frequency and pulse width. The dependency can be seen in the datasheet. I am reaching out to you in order to give further adivce. Constantin SANDU
(posted 2022-07-01 20:44:25.44) Dear Sirs,
I do not find information about the power of your product HPIR104 - High-Power IR Emitter.
Please, send me the power value.
Best regards,
Constantin
(constantin.sandu@comoti.ro) GBoedecker
(posted 2022-07-06 10:46:15.0) Dear Constantin, thank you for your feedback! You can find the power plot in the "Graphs" tab on the website or in the specsheet, downloadable from the "Docs" column. 明琪 庞
(posted 2022-06-17 09:06:12.26) 请问网站上给出的归一化光谱曲线是在什么条件下测量的?
在使用过程中可以改变 Electrical Power吗?如何改变?改变之后输出的光谱曲线如何变化?
HPIR101是点光源吗? Woongki KIM
(posted 2022-04-07 11:03:04.567) I'm Kim Woongki from GASTRON R&D
I'm reviewing the IR Source to THORLABS.
Ray File is required for optical design.
We are using 'Ansys Speos'. (Optical design tools)
Could you send me the Ray file for the model below?
- HPIR103
- HPIR101
- HPIR102
- HPIR 104 soswald
(posted 2022-04-13 03:29:47.0) Dear Kim Woongki,
thank you for your feedback. I have reached out to you directly to provide further details. Junyu Li
(posted 2022-03-09 21:09:38.877) Hello, I would like to know how to safely power the HPIR103 in TO-8 package? Do you have any accessories? Thank you! soswald
(posted 2022-03-14 05:17:58.0) Dear Junyu Li,
thank you for your feedback. I have reached out to you directly to discuss your application in more detail. |
Additional ランプ(広帯域光源)
 高出力赤外線エミッタ |