可視域(VIS)用スーパールミネッセントダイオード(SLD)、TO-56 Can
- Ø5.6 mm TO Can Package with H Pin Codes
- Broad Emission with Center Wavelengths from 405 nm to 650 nm
- 10 mW Typical Output Power
SLD450T
450 nm SLD, 10 mW, TO-56 Can
Please Wait
Pin Code
ピン配列図によって互いに適合するマウントとダイオードの組み合わせが分かります。この図は厳密な配線図ではありません。
Recommended Controller / Mount Options | |||
---|---|---|---|
Item # | Mount | Diode Driver | TEC Controller |
LDM56 | - | - | |
ITC4000 Series | Use with LDM56 Mount | ||
LDC200 Series | Use with LDM56 Mount | - | |
TED200C | Use with LDM56 Mount | - |
特長
- 中心波長: 405 nm~650 nm
- 3 dB帯域幅:4 nmまたは5 nm(典型値)
- 当社の半導体レーザーマウントおよびコントローラに対応(右表参照)
スーパールミネッセントダイオード(SLD)は優れた高出力広帯域光源で、ディスプレイ、ホログラフィ、計測、分光などの用途に適しています。このSLDを外部共振器に取り付けると、波長可変レーザとしてご使用いただけます。こちらのページでは、ピンコードHのTO-56パッケージに納められた、中心波長450 nm~650 nmのSLDをご紹介しています。 また、バタフライパッケージに納められた可視域(VIS)SLDや、中心波長810 nm~1550 nmの近赤外域(NIR)SLDもございます。この近赤外SLDの多くはスペクトルドメイン光コヒーレンストモグラフィ(OCT)に適しています。
こちらのページでご紹介しているSLDは単一空間モードで動作し、疑似ガウシアンの光スペクトルを有します。典型的な仕様の詳細や概略図は下の表からご覧いただけます。
これらの可視域SLDのピンコードはHで、半導体レーザ用ソケットS7060Rや熱電冷却(TEC)素子が内蔵された半導体レーザー用マウントLDM56に取り付けられます。このマウントは当社の半導体レーザおよび温度コントローラに対応しています。詳細は上の表をご覧ください。なお、戻り光は出力光パワーを低下させたり、SLDを損傷させたりする可能性があるため、後方反射は排除する必要があります。 また、SLDは静電気ショックに敏感なため、取扱いには十分ご注意ください(詳しくは静電気防止アクセサリをご参照ください。)。
Posted Comments: | |
user
 (posted 2024-03-19 11:41:53.563) Dear tech support, I am using the SLD405T with the LDM56 mount. Above around 50 mA (few mW optical power output) the power fluctuates. I am suspecting a wrong orientation of the SLD into the mount and/or a wrong polarity switch setting. Can you tell me how to plug it properly ? The style H diagram and the indications in the MFGSpecSheet document are confusing to me. Thank you for your help. jjadvani
 (posted 2024-03-20 04:16:07.0) Dear User, Thank you for your feedback. I am reaching out to you directly in order to troubleshoot your issue. Kevin Affannoukoue
 (posted 2023-11-06 13:45:14.267) Dear Thorlabs, I purchased the SLD450T and the optical beam does not look uniform at all. With the adjustable collimation tube (LTN330-A), it is impossible to find something close to a collimated beam. I use it for a microscope-like experiment and the image is speckleized. Is it normal ? Do you know what could be the reason ? Do you have solutions for these problems ? Thank you for your help. Best regards. dpossin
 (posted 2023-11-07 05:47:49.0) Dear Kevin,
Thank you for your feedback. I am reaching out to you directly in order to discuss that in more detail. Junhyeok Hur
 (posted 2022-08-17 15:43:08.13) Dear Thorlabs
We are looking for a laser diode mount to drive SLD650T.
Because SLD650T has a wide diverging angle, it requires high NA.
Currently, we are usingLDM9T/M but it has large averation due to the short focal length(3.1mm) compared to the margin of the thread mount.
Therefore, we want to use LTN330-B but it does not contain the TEC.
Could you recommend any other laser diode mount for SLD650T?
Best regards. fmortaheb
 (posted 2022-08-18 05:09:08.0) Thank you very much for contacting us! Our recommended mount for these SLDs is LDM56. We will reach out to you directly to discuss your application in detail. |
スーパールミネッセントダイオードの性能
緑色の欄はOCTシステムに適した製品です。
Item # | Center Wavelength | Package | Output Powera | Bandwidth (3 dB) | Optical Spectrum | LIV Curvesb | Integrated Isolator | Equivalent Benchtop Source |
---|---|---|---|---|---|---|---|---|
SLD405B | 405 nm | Butterfly, SM Pigtail | 5 mW | 3 nm | No | No | ||
SLD450B | 450 nm | Butterfly, SM Pigtail | 5 mW | 6 nm | No | No | ||
SLD450T | 450 nm | TO-56 | 10 mW | 5 nm | No | No | ||
SLD510B | 510 nm | Butterfly, SM Pigtail | 1.5 mW | 8 nm | No | No | ||
SLD635B | 635 nm | Butterfly, SM Pigtail | 3 mW | 6 nm | No | No | ||
SLD635T | 635 nm | TO-56 | 10 mW | 5 nm | No | No | ||
SLD650B | 650 nm | Butterfly, SM Pigtail | 3 mW | 6 nm | No | No | ||
SLD650T | 650 nm | TO-56 | 10 mW | 5 nm | No | No | ||
SLD770S | 770 nmc | Butterfly, SM Pigtail | 5.5 mW | 18 nm | No | No | ||
SLD810S | 810 nmc | Butterfly, SM Pigtail | 15 mW | 30 nm | No | No | ||
SLD830S-A10W | 830 nmc | Butterfly, SM Pigtail | 10 mW (Min) | 60 nm | No | No | ||
SLD830S-A20W | 830 nmc | Butterfly, SM Pigtail | 20 mW (Min) | 55 nm | No | No | ||
SLD830S-A10 | 830 nmc | Butterfly, SM Pigtail | 13 mW | 20 nm | No | No | ||
SLD830S-A20 | 830 nmc | Butterfly, SM Pigtail | 22 mW | 20 nm | No | No | ||
SLD840 | 840 nmc | Butterfly, SM Pigtail | 4 mW | 70 nm | No | No | ||
SLD840P | 840 nmc | Butterfly, PM Pigtail | 4 mW | 70 nm | No | No | ||
SLD850S-A10W | 850 nmc | Butterfly, SM Pigtail | 10 mW (Min) | 60 nm | No | No | ||
SLD850S-A20W | 850 nmc | Butterfly, SM Pigtail | 20 mW (Min) | 55 nm | No | No | ||
SLD880S-A7 | 880 nmc | Butterfly, SM Pigtail | 7 mW | 40 nm | No | No | ||
SLD880S-A25 | 880 nmc | Butterfly, SM Pigtail | 25 mW | 40 nm | No | No | ||
SLD920S | 920 nmc | Butterfly, SM Pigtail | 15 mW | 65 nm | No | No | ||
SLD920P | 920 nmc | Butterfly, PM Pigtail | 15 mW | 65 nm | No | No | ||
SLD930S-A40W | 930 nmc | Butterfly, SM Pigtail | 40 mW | 45 nm | No | No | ||
SLD930P-A40W | 930 nmc | Butterfly, PM Pigtail | 40 mW | 45 nm | No | No | ||
SLD970S-A40W | 970 nmc | Butterfly, SM Pigtail | 40 mW | 50 nm | No | No | ||
SLD970P-A40W | 970 nmc | Butterfly, PM Pigtail | 40 mW | 50 nm | No | No | ||
SLD1050S | 1050 nmc | Butterfly, SM Pigtail | 8 mW | 50 nm | No | No | ||
SLD1050P | 1050 nmc | Butterfly, PM Pigtail | 8 mW | 50 nm | No | No | ||
SLD1050S-A60 | 1050 nmc | Butterfly, SM Pigtail | 60 mW | 70 nm | No | No | ||
SLD1050P-A60 | 1050 nmc | Butterfly, PM Pigtail | 60 mW | 70 nm | No | No | ||
SLD1021S | 1310 nmc | Butterfly, SM Pigtail | 12.5 mW | 85 nm | No | S5FC1021S | ||
SLD1018S | 1310 nmc | Butterfly, SM Pigtail | 30 mW | 45 nm | No | S5FC1018S S5FC1018P | ||
SLD1018P | 1310 nmc | Butterfly, PM Pigtail | 30 mW | 45 nm | No | S5FC1018S S5FC1018P | ||
SLD1310 | 1315 nmc | Butterfly, SM Pigtail | 30 mW | 90 nm | Yes: 50 dB Isolation | No | ||
SLD1310P | 1315 nmc | Butterfly, PM Pigtail | 30 mW | 90 nm | Yes: 50 dB Isolation | No | ||
SLD1325 | 1325 nmc | Butterfly, SM Pigtail | 10 mW (Min) | 100 nm (Min) | Yes: 30 dB (Min) Isolation | No | ||
SLD1330 | 1325 nmc | Butterfly, SM Pigtail | 40 mW | 90 nm | Yes: 50 dB Isolation | No | ||
SLD1330P | 1325 nmc | Butterfly, SM Pigtail | 40 mW | 90 nm | Yes: 50 dB Isolation | No | ||
SLD1410 | 1400 nmc | Butterfly, SM Pigtail | 5 mW | 98 nm | Yes: 30 dB Isolation | No | ||
SLD1450S | 1450 nmc | Butterfly, SM Pigtail | 25 mW | 54 nm | No | No | ||
SLD1450P | 1450 nmc | Butterfly, PM Pigtail | 25 mW | 54 nm | No | No | ||
SLD1550S-A1 | 1550 nmc | Butterfly, SM Pigtail | 1.0 mW | 110 nm | No | No | ||
SLD1550P-A1 | 1550 nmc | Butterfly, PM Pigtail | 1.0 mW | 110 nm | No | No | ||
SLD1550S-A2 | 1550 nmc | Butterfly, SM Pigtail | 2.5 mW | 90 nm | No | S5FC1550S-A2 S5FC1550P-A2 | ||
SLD1550P-A2 | 1550 nmc | Butterfly, PM Pigtail | 2.5 mW | 90 nm | No | S5FC1550S-A2 S5FC1550P-A2 | ||
SLD1005S | 1550 nmc | Butterfly, SM Pigtail | 22 mW | 50 nm | No | S5FC1005S | ||
SLD1550S-A40 | 1550 nmc | Butterfly, SM Pigtail | 40 mW | 33 nm | No | No | ||
SLD1550P-A40 | 1550 nmc | Butterfly, PM Pigtail | 40 mW | 33 nm | No | No | ||
SLD1610 | 1610 nmc | Butterfly, SM Pigtail | 27 mW | 57 nm | No | No | ||
SLD1610P | 1610 nmc | Butterfly, PM Pigtail | 27 mW | 57 nm | No | No |