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Serie TCCXQ
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Ingrandimento
0.11 - 1.5 x
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Vantaggi chiave

  • Assenza di stray-light
    Per l’esame di superfici sia riflettive che diffusive
  • Elevata risoluzione
    Per l’acquisizione di immagine a contorni nitidi e individuare le più piccole imperfezioni
  • Design bi-telecentrico
    La stessa precisione di misura delle ottiche bi-telecentriche standard
  • Collimazione luminosa ottimale
    Per applicazioni di misura precise a luce diretta
  • Rapporto di prova dettagliato con parametri ottici misurati
Scopri di più
Specifiche ottiche principali Area inquadrata Specifiche ottiche avanzate Specifiche illuminazione Specifiche meccaniche
Codice
prodotto
Ingrandimento Cerchio
immagine
Massima
dimensione
sensore
1/3” 1/2” 2/3”
Distanza
di
lavoro
Working
ƒ/N
Telecentricità
tipica
(max)
Distorsione
tipica
(max)
Colore
della
luce,
picco
di
lunghezza
d'onda
Mount Lunghezza Larghezza Altezza
4.80 x 3.60 6.40 x 4.80 8.50 x 7.09
(x) (mm) (mm × mm) (mm × mm) (mm × mm) (mm) (deg) (%) (mm) (mm) (mm)
1 2 3 4 10
TCCXQ150-G 1.500 11.0 2/3″ 3.20 x 2.40 4.27 x 3.20 5.67 x 4.73 78.0 16 < 0.04 (0.06) < 0.05 (0.10) green, 525 nm C 195.4 64.0 155.0
Info
TCCXQ150-W 1.500 11.0 2/3″ 3.20 x 2.40 4.27 x 3.20 5.67 x 4.73 78.0 16 < 0.04 (0.06) < 0.05 (0.10) white, 6000 K C 195.4 64.0 155.0
Info
TCCXQ100-G 1.000 11.0 2/3″ 4.80 x 3.60 6.40 x 4.80 8.50 x 7.09 78.0 12 < 0.04 (0.06) < 0.05 (0.10) green, 525 nm C 181.0 64.0 155.0
Info
TCCXQ100-W 1.000 11.0 2/3″ 4.80 x 3.60 6.40 x 4.80 8.50 x 7.09 78.0 12 < 0.04 (0.06) < 0.05 (0.10) white, 6000 K C 181.0 64.0 155.0
Info
TCCXQ075-G 0.750 11.0 2/3″ 6.40 x 4.80 8.53 x 6.40 11.33 x 9.45 78.0 12 < 0.04 (0.06) < 0.1 (0.2) green, 525 nm C 209.8 64.0 155.0
Info
TCCXQ075-W 0.750 11.0 2/3″ 6.40 x 4.80 8.53 x 6.40 11.33 x 9.45 78.0 12 < 0.04 (0.06) < 0.1 (0.2) white, 6000 K C 209.8 64.0 155.0
Info
TCCXQ066-G 0.660 11.0 2/3″ 7.27 x 5.45 9.70 x 7.27 12.88 x 10.74 78.0 12 < 0.04 (0.06) < 0.1 (0.2) green, 525 nm C 204.1 64.0 155.0
Info
TCCXQ066-W 0.660 11.0 2/3″ 7.27 x 5.45 9.70 x 7.27 12.88 x 10.74 78.0 12 < 0.04 (0.06) < 0.1 (0.2) white, 6000 K C 204.1 64.0 155.0
Info
TCCXQ050-G 0.500 11.0 2/3″ 9.60 x 7.20 12.80 x 9.60 17.00 x 14.18 78.0 12 < 0.04 (0.06) < 0.1 (0.2) green, 525 nm C 185.5 64.0 155.0
Info
TCCXQ050-W 0.500 11.0 2/3″ 9.60 x 7.20 12.80 x 9.60 17.00 x 14.18 78.0 12 < 0.04 (0.06) < 0.1 (0.2) white, 6000 K C 185.5 64.0 155.0
Info
TCCXQ024-G 0.243 11.0 2/3″ 19.75 x 14.81 26.34 x 19.75 34.98 x 29.18 20.0 8 < 0.04 (0.08) < 0.04 (0.10) green, 525 nm C 248.3 88.0 235.5
Info
TCCXQ024-W 0.243 11.0 2/3″ 19.75 x 14.81 26.34 x 19.75 34.98 x 29.18 20.0 8 < 0.04 (0.08) < 0.04 (0.10) white, 6000 K C 248.3 88.0 235.5
Info
TCCXQ018-G 0.184 11.0 2/3″ 26.09 x 19.57 34.78 x 26.09 46.20 x 38.53 35.6 8 < 0.08 (0.10) < 0.05 (0.10) green, 525 nm C 299.2 102.0 284.8
Info
TCCXQ018-W 0.184 11.0 2/3″ 26.09 x 19.57 34.78 x 26.09 46.20 x 38.53 35.6 8 < 0.08 (0.10) < 0.05 (0.10) white, 6000 K C 299.2 102.0 284.8
Info
TCCXQ016-G 0.157 11.0 2/3″ 30.57 x 22.93 40.76 x 30.57 54.14 x 45.16 50.3 8 < 0.05 (0.08) < 0.03 (0.08) green, 525 nm C 336.3 108.0 318.8
Info
TCCXQ016-W 0.157 11.0 2/3″ 30.57 x 22.93 40.76 x 30.57 54.14 x 45.16 50.3 8 < 0.05 (0.08) < 0.03 (0.08) white, 6000 K C 336.3 108.0 318.8
Info
TCCXQ014-G 0.138 11.0 2/3″ 34.78 x 26.09 46.38 x 34.78 61.59 x 51.38 64.4 8 < 0.05 (0.08) < 0.03 (0.07) green, 525 nm C 363.7 128.0 349.9
Info
TCCXQ014-W 0.138 11.0 2/3″ 34.78 x 26.09 46.38 x 34.78 61.59 x 51.38 64.4 8 < 0.05 (0.08) < 0.03 (0.07) white, 6000 K C 363.7 128.0 349.9
Info
TCCXQ011-G 0.110 11.0 2/3″ 43.64 x 32.73 58.18 x 43.64 77.27 x 64.45 89.6 8 < 0.04 (0.08) < 0.02 (0.10) green, 525 nm C 429.1 144.0 415.2
Info
TCCXQ011-W 0.110 11.0 2/3″ 43.64 x 32.73 58.18 x 43.64 77.27 x 64.45 89.6 8 < 0.04 (0.08) < 0.02 (0.10) white, 6000 K C 429.1 144.0 415.2
Info

Ultimo aggiornamento: 18 nov 2022

Ingrandisci tabella

Note

  1. Distanza di lavoro: distanza tra la meccanica frontale del beam splitter e l’oggetto. Impostare questa distanza entro l’intervallo ± 3% del valore nominale per garantire massima risoluzione e minima distorsione.
  2. Working f/N (wf/N): esprime l'f-number reale dell'obiettivo quando lavora come macro. Obiettivi con apertura ridotta possono essere forniti su richiesta.
  3. Massima inclinazione tra i raggi principali e l’asse ottico sul lato dell'oggetto. La tabella riporta i valori tipici (medie di produzione) e i valori massimi (garantiti).
  4. Deviazione percentuale dell’immagine digitale comparata con un’immagine ideale totalmente priva di distorsione. La tabella riporta i valori tipici (medie di produzione) e i valori massimi (garantiti).
  5. Agli estremi della profondità di campo, l’immagine acquisita può ancora essere utilizzata ai fini della misura. Tuttavia, per ottenere la massima nitidezza, si consiglia di considerare solo metà del valore della profondità di campo nominale. La dimensione dei pixel impiegati per il calcolo è pari a 3.45 μm.
  6. Lato oggetto, calcolato con il criterio di Rayleigh con λ= 520 nm
  7. Alla massima corrente in ingresso. Si considera una tolleranza pari a ± 0.06V sulla misura del voltaggio in ingresso.
  8. Usato in modalità continua (non pulsata).
  9. In condizioni di ampiezza d’impulso <= 10 ms e duty cycle <= 10%. È necessario bypassare l'elettronica integrata (vedi tech info).
  10. Distanza misurata dalla meccanica frontale del beam splitter alla flangia della camera.

Documenti tecnici

Product user guide
Back focal adjustment
LTCLHP manual

STANDARD usage option (LED control throuh built-in electronics)

Direct LED control usage option

Instructions for use

Operation options

LTSCHP LED modules can be operated in two ways:

  • standard usage option: through the built-in electronics
  • direct LED control usage option

STANDARD usage option (LED control throuh built-in electronics)

Only conitinuous mode (constant voltage) is allowed.

Connection:

Connect the black and the brown cables to your +12 / +24 V power supply.

Light intensity adjustment

The built-in multi-turn trimmer allows to control the light (LED forward current) intensity with a very high degree of precision: you can bring the current intensity from minimum to maximum with 21 full turns of the adjustment screw. Simply remove the protective cap and rotate counter-clockwise the adjustment screw to increase light intensity and vice versa.

Device power ratings LED power ratings
Part number Light color,
Wavelength peak
DC voltage 1 Power
consumption
Max LED forward
current
Forward
voltage
Max pulse current Compatibility
Minimum Maximum Typical Maximum
(V) (V) (W) (mA) (V) (V) (mA)
2 3 4 5 7
LTSCHP1W-R
Replacement LED module, red
red, 630 nm 12 24 < 2.5 350 2.4 3.00 2000 LTCLHP, TCBENCH, LTCL4K, TCCX, TCCXQ ,
LTCLHP CORE, TCBENCH CORE, TCKIT, MZMT12X
LTSCHP1W-G
Replacement LED module, green
green, 520 nm 12 24 < 2.5 350 3.3 4.00 2000 LTCLHP, TCBENCH, LTCL4K, TCCX, TCCXQ ,
LTCLHP CORE, TCBENCH CORE, TCKIT, MZMT12X
LTSCHP1W-B
Replacement LED module, blue
blue, 460 nm 12 24 < 2.5 350 3.3 4.00 2000 LTCLHP, TCBENCH, LTCL4K, TCCX, TCCXQ ,
LTCLHP CORE, TCBENCH CORE, TCKIT, MZMT12X
LTSCHP1W-W
Replacement LED module, white
white 12 24 < 2.5 350 2.78 - 2000 LTCLHP, TCBENCH, LTCL4K, TCCX, TCCXQ ,
LTCLHP CORE, TCBENCH CORE, TCKIT, MZMT12X

Ingrandisci tabella
  1. Tolerance ± 10%
  2. Used in continuous (not pulsed) mode.
  3. At max forward current.
  4. Tolerance is ±0.06V on forward voltage measurements.
  5. At pulse width <= 10 ms, duty cycle <= 10% condition. Built-in electronics board must be bypassed (see tech info).
  6. Shipped not assembled. See LTCLHP instruction manual.
  7. Some part numbers are not available in all color options (-R, -G, -B and -W). See page of each product series for available colors.

Direct LED control usage option

Both continuous and pulsed mode are allowed; the built-in electronics can be bypassed in order to drive the LED directly for use in continuous or pulsed mode. When bypassed, builtin electronics behaves as an open circuit allowing direct control of the LED source. Please note that in such case light intensity adjustment is not possible though the built-in multi-turn trimmer.

Connection:

Connect the black and blue cables as shown below (remove the LED anode protective cover).

Make sure not to exceed LEDs maximum rates to avoid electrical shorts.

Materiale marketing e stampa

Metrology white paper