slew rate of the A-301 is 30V/uSec. compared to 250V/uSec for the A-301HS.
By connecting 2 amplifiers in series, the output voltage may be doubled to 700Vptp .
A-301 High Voltage
Amplifier/ Piezo Driver and Modulator
A-301 piezo Driver/Piezo Amplifier´Â °íÀü¾Ð ÁõÆø±â·Î¼, °íÀü¾Ð¿¡´ëÇÑ
ÁõÆø, °í¼ÓÀÇ ¾ç¹æÇâ ÇÇ¿¡Á¶ µå¸®À̺ê¿ë, ¶Ç´Â ´Ù¾çÇÑ ÀÀ¿ë¿¡ °íÀü¾Ð ±³·ùÀü¾ÐÀ»
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Piezo Driver / Piezo Amplifier´Â Ãâ·ÂÀü¾Ð ±175V (350V
ptp). ±îÁö¸¦ °®À¸¸ç,
Àü·ù¿ë·®Àº ¸ðµ¨ A-301 °¡ 60 mA (100 mA peak)
A-301 HS°¡s 100mA (150mA peak).
A-301 ÁÖÆļö´ë¿ªÀº 30 KHzÀ̸ç, A-301 HS´Â 200
KHz±îÁö °¡´ÉÇÏ´Ù.
slew rate of the A-301 is 30V/uSec. compared to 250V/uSec for the
A-301HS.
By connecting 2 amplifiers in series,
the output voltage may be doubled to 700Vptp .
Àú·ÅÇÑ°¡°Ý
Àú·ÅÇϸé¼
»ç¿ëÀÌ ¿ëÀÌ. ÀûÀº
ÀâÀ½. ³·Àº
¿Ö°î High
Slew rate-up to 400 Volt/microsecond. ÀÔ·Â
º¸È£È¸·Î-High Voltage, On/Off. Ãâ·Âº¸È£ - Short-circuit, Power loss,Impedance.
Specifications:
A-301 Piezo Amplifier
| Amplifier section: | |
|
Maximum Input
Voltage |
± 10 V |
|---|---|
|
Maximum Output
Voltage |
± 175 V (350Vptp) |
|
Maximum
Current |
± 60 mA for A-301, +/-100mA for A-301HS |
|
Bandwidth |
Into
1 K resistive load |
| A-301:DC - 30 kHz, A-301HS-DC-200KHz | |
|
Output
Power |
16 Watt maximum |
|
DC
Gain |
20 |
|
Coupling |
Input & Output: Direct DC Coupling |
|
DC
Offset |
Adjustable to ± 8 Volts + On/Off Switch |
|
Input
Impedance |
10 K |
|
Slew
Rate |
A-301: 30V/ µSec, A-301HS:250V/µSec |
|
Output Noise
|
4 mV PTP max. (0.8 mV RMS max.) (input shorted, 30 KHz. BW) |
| Variable Gain Option: | 0-10X
or 0 - 20X or 0-40X available. Please consult the factory regarding that option. |
| Dimensions: | H= 90mm W=134mm L=235mm |
|
AC
Input | |
|
Line Input
Voltage |
110/120 V, 60 Hz and 220/230 V , 50 Hz (Switchable by user) |
| Line Input Current | 0.5 A peak |
Applications:
2 °³ÀÇ amplifier¸¦ »ç¿ëÇÏ¿© µÎ¹èÀÇ Ãâ·ÂÀ» ¾òÀ» ¼ö ÀÖ´Ù.
Á÷·Ä¿¬°á½Ã
(+/- 350V into a floating load = 700V ptp).
Please note that both amplifiers must be floating (i.e. be careful not to
ground them via an oscilloscope etc.)
It is also possible to double or
tripple the output voltage by using a special transformer. Using a transformer
is possible only at
high frequency (over 10 KHz.) and it requires more
components to be added for balancing and proper termination of the
load.
Parallel connection is done by adding resistors at the input and
at the output. Please consult the factory for parallel connection.
Calulating the estimated current needed to drive your load:
| In order to purchase the right amplifier to drive your load, you must calulate the peak current needed. | |
| For Capacitive load: | |
|
|
Ipeak(A) = 2 ¥ð F C Vpeak (for a Sine Wave) Ipeak(A) = 4 F C Vpeak (for a triangular wave) Ipeak(A) = C dV / dt (for a square wave or sharp rise time) |
| F=Maximum frequency
(Hz.) ¥ð=3.1415927 |
C=Capacitance in Farads Vpeak=Maximum Voltage you need to drive your Load. |
| For Resistive Load: | |
| I = Vpeak/R | |
| where R is the resistance of your load in Ohms. | |
The current, Voltage and Frequency must be less or equal to the amplifier's specifications.
This amplifier is NOT SUITABLE for driving pure
inductive loads
(i.e. speakers, solenoides, electromagnets etc.)
You must connect your load with thick wires to minimize inductance (like speaker wires). Coaxial cable is not recommended for cables over 2m (6.5 Ft.) because the capacitance of the cable (15-50 pF/Ft) will load your amplifier at high frequencies.
| Example: The active impedance of a capacitive load is given by the equation: Z=1/(2*Pi*F*C) where Pi=3.1415, C in Farads, F in Hz.The user must check that under the peak operation Voltage, at maximum frequency, the current will not exceed 200mA (0.2A). Example: Operating Voltage is +/-150V, Maximum Frequency=10KHz. Load is 10nF. Z=1/(2*3.1415*10,000*10EE-9) =1592 Ohms. 150[V]/1592[Ohm] =94[mA] ===>The amplifier will drive that load at an amplitude of 150V (300V ptp). |