532nm 受動Qスイッチレーザー パルスレーザー 調整可能な繰り返し率
[特徴]
1. 受動Qスイッチ
2. 調整可能な繰り返し周波数
[仕様]
モデル |
Model#01-532HQ |
Model#02-532HXQ |
Model#03-532HYQ |
波長 |
532nm |
532nm |
532nm |
空間モード |
TEM00 |
TEM00 |
TEM00 |
平均出力パワー |
30~100mW |
near 150mW |
near 200mW |
単一パルスエネルギー |
3~10uJ(ランダム) |
default near 10uJ (1~20uJ customizable) |
default 15uJ ~20uJ |
パルス幅 |
10~50ns (ランダム) |
default near 15ns (10~20ns customizable) |
default near 20ns (15~30ns customizable) |
ピークパワー |
60W~1KW |
300W~2KW |
300W~2.6KW |
繰り返し率 |
default near 10KHz |
default near 15KHz (1Hz~50KHz customizable ) |
default 10KHz (1~50KHz customizable) |
ビームスポット形状 |
円形, 縦横比<1.1:1 |
円形, 縦横比<1.1:1 |
円形, 縦横比<1.1:1 |
ポインティング安定性 |
<0.05 mrad |
<0.05 mrad |
<0.05 mrad |
ビーム径(1/e2) |
<2 mm |
<2 mm |
<1.5 mm |
ビーム発散 |
<1 mrad |
<1 mrad |
<1.5 mrad |
パワー安定性 |
<±3% per 2 hrs |
<±3% per 2 hrs |
<±3% per 2 hrs |
ビームの高さ |
29mm |
29mm |
29mm |
温度安定化 |
TEC |
TEC |
TEC |
ウォームアップ時間 |
<5 分 |
<5 分 |
<5 分 |
ビーム品質(M2) |
<2 |
<2 |
<2 |
最適動作温度 |
20~30℃ |
20~30℃ |
20~30℃ |
保管温度 |
10~50℃ |
10~50℃ |
10~50℃ |
MTTF |
10,000 hrs |
10,000 hrs |
10,000 hrs |
レーザーヘッドサイズ |
155(L)x77(W)x60(H)mm3 |
167(L)x77(W)x70(H)mm3 |
155(L)x77(W)x60(H)mm3 |
電源サイズ |
178(W)x197(D)x84(H) mm3 |
178(W)x197(D)x84(H) mm3 |
178(W)x197(D)x84(H) mm3 |
備考 |
The average power of this model Q-switched laser is 30~100mw, and the single pulse energy, pulse width and repetition frequency affect each other. |
The average power of this type of Q-switched laser is about 150mw. The two parameters of single pulse energy and repetition frequency affect each other. |
The average power of this type of Q-switched laser is about 200mw. The two parameters of single pulse energy and repetition frequency affect each other. |
[主なパラメータの説明]
(1) Repeat rate
The max repeat rate is fixed.
1 ~ max repeat rate can be adjusted by Exteranl input signal.
(2) Single pulse energy
It can be customized according to your needs.
It is a fixed value after production is completed.
(3) Pulse width
It can be customized according to your needs.
It is a fixed value after production is completed.
(4)Average output power
Average output power = [Repeat rate]*[Single pulse energy]
e.g.
Repeat Rate: 1~10KHz
Single Pulse Energy: near 20uJ
Average output power = [Repeat rate]*[Single pulse energy] = 10*1000*20 = 200000uJ (200mW)
(5)Peak Power
Peak Power = [Single pulse energy]/[Pulse Width]
e.g.
Pulse Width: near 15ns
Single Pulse Energy: near 20uJ
Peak Power = [Single pulse energy]/[Pulse Width] = 20uJ/15ns = 20*10^(-6) / 15 * 10^(-9) = 20 / (15*0.001) = 1333W