7
4.1.5) The current output real time optical power of equipment group:
Figure (2)
in page “1.5”.
4.1.6) Laser deviation:
Figure (2) in page “1.6”. Laser diode has a rated current, when
operating current is more than 130% of the rated current, the life of laser is affected, more serious,
the laser will be damaged. So when detected operating current is more than 130% of the rated
current, the hardware circuit in the equipment has limited the range.
4.1.7) Laser Temperature:
Figure (2) in page “1.7”. Lasers work properly at 15
℃ ∽
35
℃
temperature range. LCD displays the actual temperature of laser, such as "25.5
℃
".
4.1.8) laser cooling current:
Figure (2) in page “1.8”. In order to ensure the internal
temperature of laser range from 20
℃
to 30
℃
, we should provide Thermoelectric cooling device
a certain amount of operating current.
4.1.9) Transmitters output laser wavelength:
Figure (2) in page “1.9”.
4.1.A) RF level indicates:
Figure (2) “1.A”. The machine default RF control mode is AGC, it
cannot be chosen. It has been set according to standard in the factory, only input to optical
transmitter a level between 75dBuV and 85dBuV (80dBuV suggested), the optical transmitter is
standard modulation meter. Lighted LCD square is about in the center point in the current page.
4.1.B) Back to front menu
4.2) Query the parameters of power:
Figure (1) in page “2”. In the current page click the
button " " to query the parameters of power. As
shown in Figure (3):
The supply voltage testing the circuit
(+5V,-5V,+24V,+8V): Laser is a more expansive
device, in order to ensure it can operate safely and
reliably, the normal circuit supplied by power is a
prerequisite. So the additional
microprocessor in the machine monitors the
circuit, when detecting power is in the
normal range, the LCD displays normal
value of every power.
4.3) Setting IP address:
F
igure (1) page
"3". In the current page click the button " "
to search and configuration net (if you didn’t
purchase the network transponders, you can
skip this step)
+5 V PO WER 2. 1
-5 V PO WER 2. 2
+4 . 9 V
-5 . 1 V
+2 4V P OWE R 2 . 3
+8 V PO WER 2. 4
Re tu rn Ma in M enu 8. 6
Se le ct←
+2 4 . 8V
+8 . 1 V
图(3)
IP ADD RES S 3. 1
SU BN ET AD DR ESS 3. 2
GA TE WAY A DD RES S 3. 3
AG EN T_T RA P IP( 1) 3. 4
AG EN T_T RA P IP( 2) 3. 5
19 2. 168 .0 18. 01 0 ← →
25 5. 255 .2 55. 00 0 ← →
19 2. 168 .0 18. 00 1 ← →
19 2. 168 .0 00. 14 4 ← →
19 2. 168 .0 00. 14 5 ← →
Re tu r n Ma in M enu 3. 6
Se le ct←
图(4 )
