タングステンハロゲンランプ
- Broadband Emission from Visible to NIR
- SM2-Threaded Housing for Compatibility with Ø2" Lens Tubes
- Post Mountable for Quick and Simple Integration
QTH10
QTH10B
Replacement Bulb
Connects to Included
Power Supply
Application Idea
SM2T2 Lens Tube Coupler
Attaching QTH10 Lamp to
LCFW5 Filter Wheel
Please Wait
特長
- 400~2200 nmの広帯域発光(「仕様」タブ参照)
- SM2内ネジによりØ50 mm~Ø50.8 mm(Ø2インチ)レンズチューブを取付け可能
- 底部にØ12 mm~Ø12.7 mm(Ø1/2インチ)ポスト取付け用M4タップ穴
- 照明の最適化のためにライトバルブの高さは調節可能
- コンデンサーレンズ、SM2ネジ付きエンドキャップ、電源が付属
- 交換用ライトバルブもご購入可能
当社のタングステンハロゲンランプは、アライメント、テスト、照明等の一般的な用途の光源です。 ヒートシンク内蔵のØ55.9 mmのコンパクトな筐体に納められており、両端にはØ50 mm~Ø50.8 mm(Ø2インチ)レンズチューブアクセサリを直接取り付けられるSM2内ネジ、また、底部にはØ12 mm~Ø12.7 mm(Ø1/2インチ)ポストを取付けられるM4タップ穴も付いています。
可視ならびに近赤外の波長範囲で広帯域に発光する(「仕様」タブのグラフ参照)このインコヒーレント光源は、様々な光学系のセットアップにおける、レーザ光を使用せずに行うアライメントに適しています。 CCD分光器と組み合わせて使用し、レンズ、フィルタほか光学素子の特性確認に使用することもできます。
この白色ランプはすぐにご使用できるようSM2外ネジ付きエンドキャップが2個と、コンデンサーレンズ(型番ACL5040U)を取り付けた状態で発送します。コンデンサーレンズは、固定リングSM2RRでSM2レンズチューブに取り付けてあります。前面のキャップは手で取り外しやすいように刻み目が付いています。一方、背面のキャップはスパナレンチSPW909もしくはSPW801(別売り)で取り外すことができます。背面のキャップを外すと付属の0.05インチ六角レンチに対応する止めネジが見えます。この止めネジでライトバルブのレセプタクルを調節できるため、コンデンサーレンズやその他の光学素子を外すことなく、画質や集光具合を調整することが可能です。 レセプタクルの垂直方向の調整範囲は3.8 mmです。ランプにはユニバーサル電源(90~264 VAC)が付属します。交換用バルブ(型番QTH10B)については、下記をご参照ください。
なお、ライトバルブ表面はとても熱くなりますので、エンドキャップならびにコンデンサーレンズは必ず付けたままでお使いください(ライトバルブを駆動中に直接触れないようにしてください)。温度が上昇するとヒートシンクは50°Cに達します。
安定化出力ならびに安定化スペクトルをご要望の際には、安定化ファイバ出力広帯域光源や安定化タングステンハロゲン光源をご用意しております。より高い色温度をご希望の場合は色温度調整ガラスフィルタを使用して、光源QTH10/Mの青色光を通過させながら赤色光を減衰することができます。これによって色温度が高く、トータルパワーが低いビームが可能になります。
Specifications | |
---|---|
Optical Output Powera | 50 mW (Typical) |
Bulb Type | Quartz Tungsten-Halogen Bulbb |
Color Temperature | 2800 K (Typical)c |
Lifetime | 2000 Hours |
Bulb Voltage | 12 VDC |
Bulb Power | 10 W |
Bulb Socket | G4 2-Pin Baseb |
Included Power Supply | Input: 90 - 264 VAC, 50 - 60 Hz Output: 12 VDC Output Connector: 2.1 mm ID x 5.5 mm OD x 9.5 mm Long (Female) |
Click for Details
ハロゲンランプQTH10(/M)の概略図
Posted Comments: | |
jdelia
 (posted 2024-06-03 03:49:22.0) Thank you for contacting Thorlabs. I have reached out to you directly to share the spectrum for the QTH10(/M) lamp. Jeremy Hieulle
 (posted 2022-10-11 15:10:25.9) Dear staff of the ThorLabs,
I am a researcher at the University of Luxembourg,
We recently purchased the QTH10 halogen lamp, which we are currently using for light-induced material degradation study.
We would be very grateful if it would be possible for you to provide us with the emission spectrum of this halogen lamp.
This information would help us a lot in the analysis of our experimental data.
Best regards,
Jeremy Hieulle jdelia
 (posted 2023-07-19 09:29:20.0) Thank you for contacting Thorlabs. You can request the spectrum for this light source by reaching out to your local tech support department. We have also reached out to you directly with the relevant graph. Dilham Wahyudi
 (posted 2022-06-23 18:40:39.5) excuse me, may i know how long these QTH10/M lamp can operate continuous? because i would use this for image acquistion. thanks. hope to get the answer as soon as possible jdelia
 (posted 2022-06-24 10:54:58.0) Thank you for contacting Thorlabs. We specify a lifetime of 2000 hours for this lamp. JP Westenskow
 (posted 2022-02-17 18:41:30.347) Can you please send me the spectral output of the QTH10 - Thanks! jgreschler
 (posted 2022-02-18 11:35:37.0) Thank you for reaching out to Thorlabs. Additional data can be requested by contacting techsupport@thorlabs.com. I have reached out to you directly with the graph. Gemma Piquero
 (posted 2021-09-13 06:02:41.993) Good morning.
Could you please provide me with the intensity vs. wavelength curve in this source?
Thanking in advance.
Best regards,
Gemma YLohia
 (posted 2021-09-14 03:43:55.0) Hello, thank you for contacting Thorlabs. The emission spectrum can be requested by emailing techsupport@thorlabs.com. The spectrum should resemble that of a black body due to it being a Quartz Tungsten-Halogen source. I will reach out to you directly with preliminary testing done on a QTH10 lamp. Elsayed Zahran
 (posted 2021-03-05 18:13:48.18) Hello,
I have the QTH10 as part of the Solarlab XM system. Can it be controlled by the DC2100? How can I install it into the ThorLabs optical bench?
Thanks,
Elsayed YLohia
 (posted 2021-03-12 04:02:45.0) Hello, the QTH10 is not intended to be controlled via the DC2100. Please use the included 12 VDC power adapter for this lamp. You can mount the QTH10 on a standard optical breadboard with 1/4"-20 tapped holes using a 1/2" post holder (for eg, PH2), 1/2" post (for eg, TR2), SM2T2 (SM2 coupler), and LMR2 mount. Serdar Okuyucu
 (posted 2021-02-03 20:53:31.42) Hello,
I have the QTH10/M lamp which I would like to use for the calibration of a device response. Could you please provide the emission spectra of the QTH10/M? Thank you. YLohia
 (posted 2021-02-03 04:36:19.0) Hello, thank you for contacting Thorlabs. The emission spectrum can be requested by emailing techsupport@thorlabs.com. The spectrum should resemble that of a black body due to it being a Quartz Tungsten-Halogen source. I will reach out to you directly with preliminary testing done on a QTH10 lamp. user
 (posted 2020-06-18 14:04:22.933) Hello, Could you please provide me the emission spectra of the QTH10? Thank you YLohia
 (posted 2020-06-22 09:50:48.0) Hello, thank you for contacting Thorlabs. We will reach out to you directly with this information. Brian Wood
 (posted 2020-05-08 15:21:55.193) Hello,
Can you provide me with the emission spectra of the QTH10 product? Also, can the installed lens be swapped for another one? Thank You YLohia
 (posted 2020-05-12 09:19:04.0) Hello, thank you for contacting Thorlabs. The spectrum should resemble that of a black body due to it being a Quartz Tungsten-Halogen source. I will reach out to you directly with preliminary testing done on a QTH10 lamp. The included lens (ACL5040U) is mounted in an SM2 lens tube and is secured using the SM2RR retaining ring. This can be removed using the appropriate spanner wrench and replaced with another 2" OD optic. Anjana Heva
 (posted 2020-02-27 09:01:13.387) Hello, I am looking for the emission spectrum of your quartz tungsten halogen lamp (QTH10)
Thank you,
Anjana Heva llamb
 (posted 2020-02-27 01:55:09.0) Hello Anjana, I will reach out to you directly with this information. JuanCarlos Martinez-Anton
 (posted 2020-02-10 10:01:01.683) I need to know if the QTH lamps have no UV-filter as typically found for illumination purposes. Although not high, I need the small UV portion spectrum and therefore a clean quartz envelope (without UV-filter)
Can you help to solve this doubt?
thanks! llamb
 (posted 2020-02-10 04:56:06.0) Thank you for your feedback. The QTH10(/M) lamps do not feature any UV filters, just an uncoated B270 aspheric condenser lens, for which you can find a sample transmission spectrum here: https://www.thorlabs.com/images/TabImages/Uncoated_B270_Transmission_780.gif. user
 (posted 2020-02-07 04:21:03.613) Dear Thorlabs team, I'm looking for the emission spectrum, could you provide me with such an information, please? thank you, regards, Anna YLohia
 (posted 2020-02-07 11:40:23.0) Hello Anna, I have reached out to you with this information. user
 (posted 2019-05-07 06:04:17.817) Hi,
I am interested in your QTH10/M Quartz Tungsten-halogen Lamp so I can calibrate a spectrofluorometer. However, to do this I will need the bulbs original emission spectrum/Power irradiance spectrum, can you please provide this?
Cheers,
Callum J YLohia
 (posted 2019-05-07 11:27:40.0) Hello Callum, I have reached out to you directly with this information. josh josh
 (posted 2019-04-24 05:46:22.857) Buechtemann mentioned "The spectrum supplied via graph and Excel sheet has its maximum at 621 nm". However, I cannot seem to find a spectrum of this Quartz Tungsten-Halogen Lamp on the website. YLohia
 (posted 2019-04-24 09:37:52.0) Hello, due to the previous feedback, we noticed a discrepancy between the expected spectrum and the spectrum we had on the website. We have removed that plot until we have completed further testing across various batches. buechtemann
 (posted 2018-04-09 11:36:21.217) The Specs indicate a color temperature of 2800 K. This number implies a maximum . of the spectral radiance at app. 1000nm.
On the other hand: The spectrum supplied via graph and Excel sheet has its maximum at 621 nm. This implies a color temperature of 4666 K. This is a vast dicrepancy. Please explain llamb
 (posted 2018-07-10 09:07:02.0) Thank you for your feedback and for pointing out this discrepancy. We are looking to update the expected Spectrum after additional testing, as the current plot of the spectrum does not match the bulb's specs. The spectrum should resemble that of a black body due to it being a Quartz Tungsten-Halogen source. I will reach out to you directly with preliminary testing done on a QTH10 lamp. user
 (posted 2018-02-13 18:57:48.7) Is there a switch on this lamp to turn it on/off or do you just unplug/plug the connector in to turn it off/on? tfrisch
 (posted 2018-03-22 02:53:00.0) Hello, thank you for contacting Thorlabs. This lamp is controlled just by connecting it to its power supply. sareggeti
 (posted 2018-02-06 13:35:59.6) Can this product be used as a blackbody calibration source as a 2800K temperature blackbody? Wavelengths of interest are 550nm and 650nm.
With the stabilized tungsten light source (SLS201L), a plot of spectral power distribution compared to a true blackbody is provided. Is this data available for the QTH10 light source?
Thanks for your help. tfrisch
 (posted 2018-03-22 02:44:28.0) Hello, thank you for contacting Thorlabs. QTH10 does not have a feedback loop in order o stabilize the output, so if you need a blackbody source for calibration, it will not be suitable. Whether it would be suitable as an approximation would depend entirely on the tolerances of your application, but we would not be able to guarantee it against any NIST-traceable or similar standard. I will reach out to you directly to discuss your application. daniel.o-connor
 (posted 2017-12-05 13:52:19.2) The manual safety section states the following: "Always wear eye protection when working with the lamp."
Can you recommend what we should use for eye protection with this product? nbayconich
 (posted 2017-12-28 04:43:32.0) Thank you for your feedback. For liability reasons, please verify all laser goggle selections with your local laser safety office who would have access to the complete specs of this light source and how it will be used in your application. IR blocking glasses will be most suitable for this type of light source. I will reach out to you directly about your application. bekker
 (posted 2016-02-18 15:55:50.837) Dear Thorlabs, how reliable is the provided spectrum? I'm considering to use the lamp as an intensity calibration source for a CCD. The absolute amount of light power is not so interesting for me, the relative power versus wavelength should be known with a few percent precision though. besembeson
 (posted 2016-03-09 01:51:09.0) Response from Bweh at Thorlabs USA: This can be used for such an application. I will follow-up with you regarding the percentage fluctuations of the relative intensity with wavelength. However, it seems to me your application might benefit from a broadband stabilized source instead like the ones at the following link: http://www.thorlabs.com/newgrouppage9.cfm?objectgroup_ID=7269 napoleondor
 (posted 2015-12-17 18:17:46.66) Hello,
I want to exact a connector type. I'd read in specification about strange inner diameter: "Output Connector: 1 mm ID x 5.5 mm OD x 9.5 mm Long (Female)". It seems that an inner diameter (1 mm) of this connector not corresponding picture of QTH10/M.
What inner diameter is correct?
Nikolay Brysin besembeson
 (posted 2015-12-21 03:06:02.0) Response from Bweh at Thorlabs USA: Thanks for pointing that out. The power supply connector barrel plug is actually 2.1mm ID x 5.5mm OD x 9.5mm Long (female). We are going to correct this on our website please. |
下記は、当社のすべての白色広帯域照明用光源(ランプ)のセレクションガイドです。これらの光源以外に、マウント無し白色LEDやマウント付き白色LED、ファイバ出力型白色LED、Solis®高出力白色LEDもございます。
Broadband Light Source Selection Guide | ||||||||||
---|---|---|---|---|---|---|---|---|---|---|
Item # | (Click to Enlarge; Not to Scale) | Emitter Type | Wavelength Range (Click for Plot) | Output Coupling | Output Power | Lamp Electrical Power | Color Temperature | Lamp Lifetime | Replacement Lamp | |
SLS204 | Deuterium | 200 - 700 nm | Free Space or Fiber Coupled (SMA) | 2 mWa 0.1 mWb (Typ.) | 30 W | N/A | 2000 hc | SLS254B | ||
SLS205 | Xenon Arc | 240 - 1200 nm | Free Space or Fiber Coupled (SMA) | 290 mWa 5 mWd (Typ.) | 75 W | 5800 Ka 5400 Kd | 2000 hc | SLS255B | ||
SLS401 | Xenon Arc | 240 - 2400 nm | Free Spacee | >1.3 Wa | 150 W | 5800 K | 2000 hc | SLS401Bf or SLS402B | ||
SLS402 | Mercury-Xenon Arc | 240 - 2400 nm | Free Spacee | >1.3 Wa | 150 W | 6000 K | 2000 hc | SLS401B or SLS402Bf | ||
SLS302 | Quartz Tungsten-Halogen | 360 - 2500 nm | Free Spacee | >10 Wa | 150 W | 3400 K | 1000 hg | SLS301B | ||
SLS201L(/M) | Quartz Tungsten-Halogen | 360 - 2600 nm | Free Spacee or Fiber Coupled (SMA) | 500 mWa 10 mWh | 9 W | 2796 K | 10 000 h | SLS251 | ||
SLS301 | Quartz Tungsten-Halogen | 360 - 3800 nm | Free Spacee | >1.6 Wa | 150 W | 3400 K | 1000 hg | SLS301B | ||
SLS603 | Xenon Arc | 380 - 780 nm | Ø3 mm Liquid Light Guide | >7 Wh | 300 W | 6000 Ki | 1000 hc | SLS600B | ||
SLS605 | Xenon Arc | 380 - 780 nm | Ø5 mm Liquid Light Guide | >15 Wh | 300 W | 6000 Ki | 1000 hc | SLS600B | ||
OSL2 | Tungsten-Halogen | 400 - 1600 nm (Typical) | Fiber Bundle | 1.4 Wk | 150 W | 3200 K | 1000 hc | OSL2Bf, OSL2B2, or OSL2BIR | ||
OSL2IR | Tungsten-Halogen | 400 - 1750 nm (Typical) | Fiber Bundle | 3.8 Wk | 150 W | 3200 K | 200 hc | OSL2B, OSL2B2, or OSL2BIRf | ||
QTH10(/M) | Quartz Tungsten-Halogen | 400 - 2200 nm | Free Space | 50 mW (Typ.) | 10 W | 2800 Kl (Typ.) | 2000 h | QTH10B | ||
SLS203F(/M) | Silicon Carbide Globar | 500 nm - 9 µm | Free Spacee or Fiber Coupled (SMA) | 1.8 Wa | 24 W | 1500 K | 10 000 h | SLS253 | ||
SLS303 | Silicon Nitride Globar | 550 nm - 15 µm | Free Space | 4.5 Wa | 70 W | 1200 K | 5000 hg | SLS303B |
Click to Enlarge
これらの写真はグレーの厚紙をビームに対して垂直(左)および平行(右)において取得しました。こちらで示しているビームの特性は典型的なものでユニットによって異なります。
タングステンハロゲンランプQTH10/Mは、広帯域で発光し(400~2200 nm)、典型的な出力は50 mWです。付属のユニバーサル電源は90~264 VAC、50~60 Hzの入力電圧に対応します。
尚、こちらのランプは家庭用照明としてはご使用いただけません。
QTH10Bは、タングステンハロゲンランプQTH10/Mに対応する交換用ライトバルブです。 交換方法については、QTH10/Mの説明書(PDF形式)のセクション3.4をご参照ください。 最良の画質を得るために、フィラメントが光軸に対して垂直になるようにセットしてください。 ライトバルブを交換する際には、ガラスに皮脂が付着しないよう手袋(ラテックス製または綿製の手袋など)をお使いになることをお勧めします。