Technical Articles
Voltage Multipliers, Inc. has published these technical articles:
(Diodes)
From this Article:
How can you confirm 1) The working ability of a high voltage diode 2) Double-check the polarity of the device....
(Diodes)
From this Article:
High-voltage rectification presents unique challenges to the designer. Careful
examination of the application requirements is essential when selecting the best
solution for size, cost and reliability....
(Optoelectronics)
From this Article:
This application is for use in a scanning electron microscope, which has different operating
modes. In one mode, a large negative voltage (nominally -10kV) must be applied to an
electrode. In the...
(Optoelectronics)
From this Article:
The OC100HG push-pull configuration is useful for driving strictly capacitive loads or very
high resistive impedance loads. Low capacitance loads can be driven at relatively high
speeds, while large...
(Diodes)
From this Article:
Controlling junction temperature is key to reliable semiconductor package design.
High voltage diodes present unique junction temperature problems which must
be addressed....
(Diodes)
From this Article:
Maximum Storage and Operating Temperature
Using parallel resistors and capacitors across diodes
Dimensions - nominal, max., and min.
MTBF for MD90FF18 and similar diodes
Space level diodes...
(Passive and Discrete)
From this Article:
Space Level Multipliers
Operating Frequency
MVM302P08 High Temp Performance
MVM Polarity...
(Power Supply and Conditioning)
From this Article:
The following information provides general information and basic
guidance necessary for the design of a multiplier assembly....
(Passive and Discrete)
From this Article:
This
section is intended to provide the user with 1) general background information on certain diode
and rectifier assembly characteristics, and 2) basic guidance in identifying specific application...
(Passive and Discrete)
From this Article:
Factors Influencing Reverse Recovery Time
Circuit/Environmental Influences: Other Factors:
a) dl/dT c) Silicon Resistivity
b) Junction Temperature d) Peak Inverse Voltage
e) Manufacturing Process...