Resource: Equipment - Power supply: Hantek power supply USB   Event history   Incoming Value Flow
Quantity 1.00 Each
Notes

HANTEK PPS2320A 3 Channel Programmable USB DC Power Supply 0-32V/0-2.5V/3.3V/5V
link to manual https://docs.google.com/file/d/0BzrQyEif2HItdTVxQzItRklERnc/edit

US $269.90

This programmable DC power has a wide voltage and current work scope, higher precision, with constant pressure and flow model, provides the output or internal switch, and has the preset parameters 16 groups, convenient and quick.
*Low ripple, low excursion
*High resolution, 10mV, 1mA
*With inner auto-serial or parallel function
*Convenient software calibration
*High-stability, low-drift.
*OVP, OCP and OTP to protect power supply.
*The intelligence temperature-control fan noise is low

http://www.ebay.ca/itm/HANTEK-PPS2320A-3-Channel-Programmable-USB-DC-Power-Supply-0-32V-0-2-5V-3-3V-5V-/140906081946?pt=LH_DefaultDomain_0&hash=item20cea82e9a&_uhb=1#ht_2052wt_952

Photo
Record created date April 12, 2013
Record created by None

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  • Event: Hantek power supply USB Resource use 4.00 HR Feb. 26, 2014 from: SENSORICA
    • Process: Make Prototype DAQ Jonathan
      • Workers: Work - Technician experimental from: None
      • Workers: Work - R&D electronics from: None
      • Workers: Work - Programming for product from: None
    • Event: Resource Production Prototype Material - DAQ card 4.00 HR Feb. 26, 2014
  • Event: Hantek power supply USB Resource use 3.00 Each Jan. 9, 2014 from: SENSORICA
  • Event: Hantek power supply USB Resource use 1.00 Each July 2, 2013 from: SENSORICA
  • Event: Hantek power supply USB Resource use 1.00 HR May 21, 2013 from: SENSORICA
    • Process: Make Photonics - Joint-type transducer
      • Workers: Work - R&D optics from: Francois
      • Labnotes:

        2013 May 21 (5.5 h + 1.5 h):

        prepare 5 joint-type transducers in angle using Ivan's pre-bent glass capillaries. Result: broke one, fried one, one has a damaged mirror. 2 left to connectorize. Connectorization failed. 0 transducer made....

        2013 May 22 (4h):

        goal: mirror 4 levers, connectorize one transducer.
        silvering quality tests: played with number of silver layers and reaction time:
        red lever: 3 times one minutes shaking. Intensity = ?
        one black strip lever: one time one minute shaking. Intensity = ?
        two black strips lever: one time 2 minutes. Intensity = ?

        Arranged power supply memories for shrinking:
        M1 = 0
        M2 = 0.32 A x 0.67 V = 0.2 W
        M3 = 0.4 x 1 = 0.4 W
        M4 = 0.6 x 0.1 = 0.6 W

        Determined ideal length for delivery fiber at the very beginning (before cleaving 1 cm both side) = 16.7 cm

        Result: made one pre-bent joint-type transducer.

        2013 May 24 (0.5 h):
        tested transducer with LED Mosquito: it works

        2013 June 5 (7.5 h)
        goals: test new LED-Mosquito with amplification + filter
        1) signal tests on LED-Mosquito: signal without anything plugged (no delivery fiber): 0.995-1.065 V (average 1030 mV), noise = 70m V.
        + delivery fiber: 1.205-1.125 V = 80mV noise (average baseline 1165 mV), so the delivery fiber increases reflexion of 135 mV.
        Reference: with industrial mirror max signal goes to + 10.3 V (note that signal goes up now when light goes back to the PD, it was the opposite before: signal was going down when more light).
        Note 2: signal saturates when lever with mirror in front of delivery fiber, so gain is too high.
        2) Shrinking trial 1: OK, Shrinking trial 2: failed: shrinking tube didn't stick to the fibers, dust or grease ? Didn't stick even with washing with alcohol.
        3) connectorization procedure update:
        step 1) verify if chinese ST connector is not clogged. Place the conenctor horizontally on the table and push a stripped fiber in. Don't maintain the connector so if the fiber can't go inside, the fiber won't break, it will just oush the connector.
        step 2) assemble the glass capillary and the black plastic cover
        step 3) insert the shrunk fiber into the glass capillary
        step 4) use the same technique as in step 1) to insert the shrunk fiber free end into the connector
        step 5) adjust the gap position relative to the capillary end by gently sliding the capillary. Apply glue on the connector to fix the black cover. Add glue just below the gap between gap and capillary end.

        2013 June 6 (1.5 h)

        tested transducer.

    • Event: Resource Production Prototype Material - Joint-type transducer 1.00 HR May 21, 2013
  • Event: Hantek power supply USB Resource use 10.00 HR May 10, 2013 from: SENSORICA