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Summary of Contents for PiezoDrive PD32
- Page 1 PD32 - 32 Channel Piezo Driver Manual and Specifications PiezoDrive Pty. Ltd. www.piezodrive.com...
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Page 2: Table Of Contents
Contents Introduction ............................ 3 Warnings / Notes ........................... 3 Specifications ............................ 4 Output Voltage Range ........................... 5 Ground load configurations ...................... 5 Floating load configuration ...................... 6 Input Connection Diagram ........................ 6 Output Connection Diagram ......................... 7 Output Current ............................ 8 Power Bandwidth .......................... 8 Small Signal Bandwidth ........................ 10 Overload Protection ... -
Page 3: Introduction
Introduction The PD32 is a high‐bandwidth, low‐noise linear amplifier for driving up to 32 piezoelectric actuators. The voltage range is configurable from +50V to +/‐140V and includes asymmetric voltage ranges such as ‐20V to +120V. The PD32 works seamlessly with common multi‐channel DAC cards and provides exceptional ease of use and compatibility with programming tools such as LabView and Simulink. The compact size and 19‐inch rack compatibility provides a comprehensive off‐the‐shelf solution for driving hundreds or thousands of piezoelectric actuators. The PD32 is designed for demanding applications such as Adaptive Optics, Acoustic Beam Forming, Materials Testing, Astronomy, Ultrasonics, and Vibration Control. With an output current of 150mA per channel, a large array of piezoelectric actuators can be driven simultaneously at high frequencies. Positive and negative high‐voltage bias outputs are also included for compatibility with piezoelectric bender actuators. Compatible Actuators Stack Actuators 60V, 100V, 120V, 150V Plates and Tubes up to +/‐140V Two Wire Benders up to +/‐140V Three Wire Benders Up to 140V, or +/‐75V Each channel is individually protected against short circuit and thermal overload. Status indicators on the front panel provide individual monitoring of all channels. A digital status signal and external shutdown command is also accessible from the input connector to allow remote monitoring and control. The input and output connectors are industry standard 37 Pin D‐Sub connectors which are straight‐forward to assemble. Adaptors are available for industry standard 32 Channel DAC cards. Warnings / Notes This device produces hazardous potentials and should be used by suitably qualified personnel under the supervision of an observer with appropriate first‐aid training. Do not operate the device when there are exposed conductors. ... -
Page 4: Specifications
3 Specifications Unipolar Output Bipolar Output Output Voltage +50V to +140V +/‐50V to +/‐140V Peak Current 150 mA per channel 75 mA per channel RMS Current 106 mA per channel 53 mA per channel Power Bandwidth 50 kHz (120 Vpp) 50 kHz (240 Vpp) Signal Bandwidth 120 kHz 120 kHz Slew Rate 19 V/us 38 V/us Gain 15 V/V 30 V/V Input Impedance 53 kOhm 6.25 kOhm Input Offset 5 mV 5 mV Load Unlimited Unlimited Output Noise 200 uV RMS (1uF Load) 300 uV RMS (1uF Load) Protection ... -
Page 5: Output Voltage Range
Output Voltage Range The output voltage range is configurable between +50V and +/‐140V and the load can be either grounded or floating. For peak‐to‐peak voltages less than 140V, the grounded load configuration is recommended since this provides greater current. The floating load configuration is required for the +/‐100V and +/‐140V ranges. The desired configuration should be specified at the time of ordering. 4.1 Ground load configurations In the grounded load configurations, the actuator connections are illustrated below. The negative output is internally grounded. Out1+ Piezo 1 Out1‐ The desired output voltage range can be selected from the following table. Min Voltage Max Voltage Order Code 0 +140 PD32‐140 0 +120 PD32‐120 0 +100 PD32‐100 0 +70 PD32‐70 0 +50 PD32‐50 ‐20 +120 PD32‐20/120 ‐20 ... -
Page 6: Floating Load Configuration
4.2 Floating load configuration The floating load configuration is useful for achieving higher peak‐to‐peak voltage swings. The connection diagram is illustrated below. Do not connect either of these signals to ground, for example, an oscilloscope probe. Out1+ Piezo 1 Out1‐ The desired output voltage range can be selected from the following table. Min Voltage Max Voltage Order Code ‐140 +140 PD32‐140/140 ‐100 +100 PD32‐100/100 5 Input Connection Diagram The front panel input connector is an industry standard DB37 Female Connector (TE 1658612‐1). Any Male DB37 cable plug is compatible. The connection diagram is illustrated below. Signals Input Connector Notes Analog Inputs 1 to 32 Pins 1 to 32 +/‐ 10V max Digital disable command Pin 36 3.3V or 5V logic Overload indicator Pin 37 5V logic ... -
Page 7: Output Connection Diagram
6 Output Connection Diagram The front panel output connector is an industry standard DB37 Female Connector (TE 1658612‐1). Any Male DB37 cable plug is compatible. The connection diagram is illustrated below. Signals Connector 1 Notes Outputs 1 to 16 (Positive) Pins 1 to 16 Outputs 1 to 16 (Negative) Pins 20 to 35 HV+ Pin 17 and 18 For driving benders HV‐ Pin 36 and 37 For driving benders Signals DB37 Connector Notes Outputs 17 to 32 (Positive) Pins 1 to 16 Outputs 17 to 32 (Negative) Pins 20 to 35 HV+ Pin 17 and 18 For driving benders HV‐ Pin 36 and 37 For driving benders ... -
Page 8: Output Current
7 Output Current The peak output current is 150 mA per channel in the grounded load configuration or 75 mA per channel in the floating load configuration. The maximum RMS current is 106 mA in the grounded configuration and 53 mA in the floating load configuration. The maximum simultaneous output current from all channels is 1.5 A. 8 Power Bandwidth The nominal slew‐rate of the PD32 in the grounded load configuration is 19 V/us. Therefore, the unloaded maximum frequency sine‐wave is . That is, the power bandwidth for a 120 Vp‐p sine‐wave is 50 kHz. In the floating load configuration, the slew‐rate is doubled to 38 V/us, therefore, the power bandwidth for a 240 Vp‐p sine‐wave is 50 kHz With a capacitive load, the power bandwidth is limited by the output current. The maximum frequency sine wave is where is the peak current limit, is the peak‐to‐peak output voltage, and is the effective load capacitance. The power bandwidth versus load capacitance is listed below. Load Peak to Peak Voltage (Floating) Load Peak to Peak Voltage (Grounded) Cap. 100 200 280 Cap. 50 100 140 10 nF 23 kHz 11 kHz 8.5 kHz 10 nF 95 kHz 47 kHz ... - Page 9 10 uF 3 uF 1 uF 300 nF 30 nF 100 nF Frequency (Hz) Figure 1. Maximum frequency versus voltage and capacitance (Grounded Load) 3 uF 1 uF 300 nF 100 nF 30 nF 10 nF Frequency (Hz) Figure 2. Maximum frequency versus voltage and capacitance (Floating Load) ...
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Page 10: Small Signal Bandwidth
9 Small Signal Bandwidth The small‐signal bandwidth for a range of capacitive loads is listed below. The small‐signal frequency responses are plotted in Figure 3. Load Signal Capacitance Bandwidth No Load 120 kHz 10 nF 90 kHz 30 nF 40 kHz 100 nF 11 kHz 300 nF 3.8 kHz 1 uF 1.0 kHz 3 uF 320 Hz 10 uF 62 Hz 30 uF 24 Hz ... -
Page 11: Overload Protection
10 Overload Protection Each channel is protected against short‐circuit and thermal overload. If the thermal overload on any channel engages, the front panel indicator for that channel will illuminate. In addition, an overload on any channel will cause the overload signal (pin 37) on the input connector to go high (+5V). The amplifier can also be disabled by applying a logic high (3.3V to 5V) to the disable pin (pin 36). 11 Enclosure The PD32 has a side air intake and rear exhaust. These vents should not be obstructed. If sufficient air‐flow is not available, the amplifier will enter a thermal overload state as discussed above. The PD32 amplifier can be rack‐mounted in a single or side‐by‐side arrangement. The DAC card adaptor can also be rack mounted in a single or side‐by‐side arrangement with another adaptor or the amplifier itself. A single amplifier or adaptor can be mounted with the PD32‐Rack1 kit. Two adaptors, amplifiers, or a combination of both can be mounted side‐by‐side with the PD32‐Rack2 kit. 12 Signal Adaptors The signal adaptors allow a direct connection to common multi‐channel DAC cards. Standard adaptors are listed below; however, custom adaptors can also be created. Manufacturer DAC Card Signal Adaptor Notes National Instruments PCI‐6723 PD‐6723 Requires NI SH68‐C68‐S Cable National Instruments PXI‐6723 PD‐6723 Requires NI SH68‐C68‐S Cable The adaptors are contained in a compact desktop enclosure which can be mounted in a side‐by‐side arrangement to another adaptor or an amplifier. A single amplifier or adaptor can be mounted with the PD32‐Rack1 kit. Two adaptors, amplifiers, or a combination of both can be mounted side‐by‐side with the PD32‐Rack2 kit. 13 Waranty The PDC32 is guaranteed against manufacturer defects for a period of 12 months.
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