Scientech S310 Vector Bedienungsanleitung

Models S310 & S310D Laser Power and Energy Meters Setup and Operating Procedures Serial Number___________________ P/N 1019

10ULTRA™ CALORIMETER SPECIFICATIONS: ModelUC150 UC150HD UC150HD40 UC150UVType of AbsorberSurface Surface Surface VolumeMaximum Beam Diameter25mm 25

11QUICK SETUP: Note: For detailed instructions for each type of detector, refer to the Operating Procedures section. 1. Turn On the Meter: Note:

125. Select a Range: On the first press of the RANGE button, the analog scale (if active) will disappear. Then briefly press the RANGE button each

132. Group Settings for Astral or Large Aperture Calorimeters: Note: The factory default Group for Astral or Large Aperture Calorimeters is Gr

14 To set the time delay between pulses use the count up (RANGE) and count down buttons (MODE) buttons to enter the time in seconds. Press the SELE

153. Group Settings for Vector Pyroelectric Detectors and Vector HR Pyroelectric Detectors: Note: The factory default Group for Vector Pyroel

16H. The "At" (attenuation) annunciator now appears in the display. This allows you to enter a value from 0.0001 to 9999 which will bec

17C. To select a Group, press the SELECT button when the Group you desire appears in the display (failure to press the SELECT button within 3 seco

18OPERATING PROCEDURES: USING THE S310 WITH VECTOR PYROELECTRIC DETECTORS: Pyroelectric detector models P25, P50, SP25, SP50, P05, and P09 are coa

193. To Zero the Analog Needle (does not apply to the S310D): Refer to Figure 3. The black slotted button located just below the display allows s

2Thank you for choosing a Scientech laser power and energy meter. Scientech, an ISO 9001 registered company, and our employees are pleased to prov

207. To Select a Mode: Available pyroelectric modes are: Energy (J), Avg. Energy (J AVG), Average Power (W AVG), and Volts (V). A. To Measure En

218. To Measure a Statistical Run of Energy Pulses: Note: Do not use AUTO range when making a statistical run. Note: Do not go from the Average

2210. To Perform a Transfer Calibration: You can transfer a calibration from a calorimeter to a Vector pyroelectric detector using the Transfer Ca

23CORRECTING PYROELECTRIC DETECTOR OPERATING PARAMETERS FOR USE AT DIFFERENT WAVELENGTHS: NOTE: Due to variability in the manufacturing process t

242. To Turn the Analog Needle On or Off (does not apply to the S310D): To turn the analog meter on or off, press and keep holding the RANGE butto

257. To Select a Mode: The modes available for the calorimeters are: Average Power (W AVG) or Energy (J). A. To Measure Average Power (W AVG):

26The statistics mode will collect data on a pulse population of up to 1000 pulses. At your prompting, the indicator will display the number of pul

27 The following are viable external triggers. The following pulses will not trigger the S310. CORRECTING ASTRAL SERIES HD CALORIMETERS OPERAT

28USING THE S310 WITH ULTRA SERIES DETECTORS: The Ultra detector selected needs to be the appropriate model for the planned laser measurements. P

29CORRECTING ULTRA SERIES HD CALORIMETERS OPERATING PARAMETERS FOR USE AT DIFFERENT WAVELENGTHS: NOTE: Due to variability in the manufacturing pr

3Table of Contents: Detector Operating Parameters:...

301. Calorimeter Watts Mode: Compare voltage to the watt reading displayed on the S310 to determine V/W constant to use when looking at the ana

313. Pyroelectric Watts and Joules Modes: Compare peak voltage to energy (joules) or power (watts) reading displayed on the S310 to dete

32CALIBRATION OF ASTRAL CALORIMETERS USING ELECTRIC SUBSTITUTION HEATING: For Astral calorimeters the electric substitution heating option must be

33CALIBRATION OF LARGE APERTURE CALORIMETERS USING ELECTRIC SUBSTITUTION HEATING: Electrical substitution heating is a standard feature of large ap

34where: V = voltage applied to the heater coil Rc = substitution heater resistance from step B C = Cal coefficient 360401 = 1.018 360801 =

35Operation of Astral and Large Aperture Calorimeters with a Digital Volt Meter: Note: Whenever a large aperture calorimeter is used without an i

36The error, in theory, is only dependent upon the value of ∑dVi, that is the cumulative random error of Vi. This number should approach zero if da

37Remote Interface Language: The remote interface language for the S310 is compatible with Std-IEEE488.2 and it also works with the RS-232 remote i

384. Remote Interface Language Common Commands and Queries: Most commands and queries may be used with either the RS232 interface or the IEEE488 i

39RANGE_<dec num>|auto Sets the range to the decimal number supplied, or to the closest legal range allowed for the current detector and conf

43. To Zero the Analog Needle (does not apply to the S310D): ...

40 DUMP? If statistics have been collected from the front panel, or by the COL or COL? commands, this command returns all of the data values in the

41 *RCL_<dec num> This is the IEEE488.2 common command. It takes the single numeric argument [1-4], and restores the instrument configuratio

425. IEEE488 Specific Commands: These commands may be used only from the IEEE488.2 interface. They are all members of the collection of the so-ca

43 RETURNED GOODS PROCEDURE: Should it become necessary to return any item to Scientech for any reason, please contact our Product Service Departme

44HD CALORIMETER AND PYROELECTRIC ABSORPTION VS. WAVELENGTH: Use this table for all HD calorimeters and HD pyroelectric detectors. Wavelength Absor

45 Wavelength Absorption Wavelength Absorption Wavelength Absorption Wavelength Absorptionµm% µm% µm% µm%1.245 91.78 1.510 91.70 1.775 90.84 2.016

46 Wavelength Absorption Wavelength Absorption Wavelength Absorption Wavelength Absorptionµm% µm% µm% µm%2.129 90.76 2.255 90.17 2.390 89.92 2.557

47 Wavelength Absorption Wavelength Absorption Wavelength Absorption Wavelength Absorptionµm% µm% µm% µm%2.855 89.26 3.233 88.79 3.725 88.11 4.394

48Wavelength Absorption Wavelength Absorption Wavelength Absorption Wavelength Absorptionµm% µm% µm% µm%5.357 86.95 6.682 86.05 8.879 84.32 13.09 8

49P MODEL PYROELECTRIC DETECTOR ABSORPTION VS. WAVELENGTH: Use this table for standard and slim profile painted (P) model pyroelectric detectors. W

5VECTOR™ S310 INDICATOR SPECIFICATIONS: ModelS310 S310D4 Digit LCD with SelectableAnalog Meter MovementFull Scale Ranges with Astral 25mm Calorimet

50HF MODEL PYROELECTRIC DETECTOR ABSORPTION VS. WAVELENGTH: Use this table for standard and slim profile high frequency (HF) model pyroelectric det

51Wavelength Absorption Wavelength Absorption Wavelength Absorption Wavelength Absorptionµm% µm% µm% µm%2.067 60.27 2.257 60.06 2.487 59.79 2.768 5

52Wavelength Absorption Wavelength Absorption Wavelength Absorption Wavelength Absorptionµm% µm% µm% µm%3.120 59.47 3.576 59.37 4.188 58.92 5.052 5

53Wavelength Absorption Wavelength Absorption Wavelength Absorption Wavelength Absorptionµm% µm% µm% µm%6.365 57.97 7.870 57.74 10.31 60.33 14.93 4

54SCHEMATICS:

55

56

57

58

6VECTOR™ PYROELECTRIC DETECTOR SPECIFICATIONS: ModelP 25 PHF 25 PHD 25 PHDX 25 PHDX25UV SP 25 SPHF 25 SPHD 25Maximum Beam Diameter 25mm 25mm 25mm 7

7VECTOR  HR PYROELECTRIC DETECTOR SPECIFICATIONS: Model PHF 02 PHF 05 PHF 09 P 05 P 09Active Diameter 2 mm 5 mm 9 mm 5 mm 9 mmSpectral ResponseVol

8ASTRAL™ CALORIMETER SPECIFICATIONS: ModelAC2500 AC25HD ACX25HD AC2501 ACX2501 AC25UV AC2504Type of Absorber Surface Surface Surface Volume Volume

9LARGE APERTURE (100MM & 200MM) CALORIMETER SPECIFICATIONS: Model360401 380401 380402 384UV5 360801 380801 380802 384UV5Type of Absorber Surfac