Differences

This shows you the differences between two versions of the page.

--- slice:dhv [2020/03/27 01:30] – [Home Button] Michael Radunsky
+++ slice:dhv [2024/04/09 21:54] (current) – Adding direct link to "Load Size..." app note Thomas Bersano
@@ Line 1: / Line 1: @@
-======SLICE-DHV Dual-Channel High-Voltage Amplifier ======
+====== SLICE-DHV Dual-Channel High-Voltage Amplifier ======
+<WRAP center round box>The SLICE-DHV is a low-noise, high-bandwidth, high-voltage source with DC bias control and sweep capabilities.  It is designed for controlling piezoelectric transducers used for precision positioning, with particular application to laser frequency stabilization.  The high-voltage output can range from 0 to 200 V, has a voltage noise <500 µV rms, can drive ±200 mA, and has an unloaded small-signal (±10 V) bandwidth >1 MHz. The SLICE-DHV also has a user-settable voltage limit for safe operation at voltages less than 200 V.
+The SLICE-DHV features two Gain values: G=1 and G=20 for the input modulation signal. When G is set to 1, the output range is limited to ±10V from the user-settable DC bias voltage. When the Gain is set to 20, the modulation input signal allows access to the full range of the SLICE-DHV (0-200 V).  When the Gain is set to 1, the SLICE-DHV has better noise performance than when the Gain is set to 20.\\
+The SLICE-DHV is not recommended for applications that require a large-signal bandwidth greater than 20 Hz, defined for modulation amplitudes more than 10 V.
+</WRAP>
 Model No. SLICE-DHV
@@ Line 9: / Line 17: @@
 Please read [[:limited_warranty|Limited Warranty]] and [[:warnings_cautions|General Warnings and Cautions]] prior to operating the SLICE-DHV.
 <WRAP center round box 60%>
-| {{ :electric_shock.png?100&nolink }}  | Potential for electrical shock hazard.  The SLICE-DHV can deliver up to 200 V at its output.  Use extreme caution when device is turned on & enabled. |
+| {{ :electric_shock.png?100&nolink }}  | Potential for electrical shock hazard.  The SLICE-DHV can deliver up to 200 V at its output.  Use caution when device is turned on & enabled. |
 </WRAP>
-==== Links ====
+==== Useful Links ====
-Click here for the [[http://www.vescent.com/manuals/doku.php?id=manuals|main manuals page]].\\
+Click here for the [[http://www.vescent.com/manuals/doku.php?id=manuals|Vescent manuals page]].\\
-Click here for the [[slice:quick_start_dhv|SLICE-DHVQuick Start Guide]].\\
+/*  Click here for the [[slice:quick_start_dhv|SLICE-DHV Quick Start Guide]].\\  */
-Click here for the [[slice:dhvAPI|SLICE-Dhv API]].\\
+Click here for the [[slice:dhv:api|SLICE-DHV API]].\\
 Click here for the [[https://www.vescent.com/products/electronics/slice/slice-hva-high-voltage-amplifier/|SLICE-DHV web page]].\\
-Click here for the [[https://github.com/Vescent|Github page for SLICE-DHV GUI]]\\
+/* Click here for the [[https://github.com/Vescent|Github page for SLICE-DHV GUI]]\\ */
-Click here for the [[https://github.com/Vescent/SLICE-DHV-Firmware-Upgrade|Github page for SLICE-DHV firmware revisions]]\\
+Click here for the [[https://github.com/Vescent|Github page for SLICE-DHV firmware revisions]]\\
 Please check back for added functionality.  Contact [[[email protected]|sales [at] vescent [dot] com]] for questions and corrections, or to request added functionality.
 ===== List of Warning Symbols =====
@@ Line 27: / Line 35: @@
 | {{ :electric_shock.png?100&nolink }}  | Potential for electrical shock hazard.       |
 | <WRAP important></WRAP>  | Important.  Pay close attention to manual instructions for optimum results and in order to not damage the device.  |
 </tabcaption></WRAP>
-The SLICE-DHV Current Controller is intended for driving tuning elements in external cavity diode lasers.  When using lasers particular care must be given to avoid exposure hazards.
+<WRAP center round box 60%><tabcaption rad_haz|>
+| {{ :warning-sign.png?300&nolink }}    | The SLICE-DHV High-Voltage Amplifier is intended for, among other tasks, driving tuning elements in external cavity diode lasers.  When using lasers, particular care must be given to avoid radiation exposure hazards.  |
+</tabcaption></WRAP>
 =====Description=====
-The SLICE-DHV is a high-bandwidth, low-noise, high-voltage amplifier (see <imgref dhv_prod_shot>).  It is intended for supply a control voltage to a piezoelectric crystal (PZT) for precision motion control, including positioning a diffraction grating, pzt-based motion control, or stretching fiber optic cables.
+The SLICE-DHV (<imgref dhv_prod_shot>) is a high-bandwidth, low-noise, high-voltage amplifier.  It is intended to supply a voltage to a piezoelectric transducer (PZT) for precision motion control, including cavity length control for laser frequency stabilization applications.
 <imgcaption dhv_prod_shot|The SLICE-DHV>{{ https://www.vescent.com/manuals/lib/exe/fetch.php?media=slice:dhv:slice-dhv-mr-angle.png?200|}}</imgcaption>
-===== Purchase Includes =====
+==== Purchase Includes ====
-  * SLICE-DHV dual-channel Current Controller
+  * SLICE-DHV Dual-channel High Voltage Amplifier
   * AC power cord with appropriate wall plug for you location (if known)
   * Final Test Documentation
+If your shipment is missing any items from the above list, [[[email protected]|please contact the factory]].
 ===== Absolute Maximum Ratings and Power Input =====
-Note: All modules designed to be operated in a laboratory environment.
+Note: All modules have been designed to be operated in a laboratory environment as described in <tabref abs_max_rat>.
 <WRAP center round box 60%><tabcaption abs_max_rat |Absolute Maximum Ratings>
-| **Parameter** | **Rating** |
+| **Parameter**    | **Rating**    |
-| Environmental Temperature | >15°C and <30°C|
+| Environmental Temperature  | 15°C < T < 30°C   |
-| Environmental Humidity | <60% |
+| Environmental Humidity  | <60%  |
-| Environmental Dew Points | <15°C |
+| Environmental Dew Point  | <15°C  |
-| Maximum AC Line Input Current | 2 A |
+| Maximum AC Line Input Current  | 2 A  |
 </tabcaption></WRAP>
-The SLICE-DHV will accept input line voltages within the ranges shown in <tabref v_rng>.
+The SLICE-DHV will accept input line voltages within the ranges shown in <tabref v_rng>.  The SLICE-DHV is powered by Vescent's proprietary power supply technology which allows a range of voltage inputs, but retains the noise qualities of a linear supply.
 <WRAP center round box 60%><tabcaption v_rng |Input Voltage Specifications>
 | **Parameter**                                                       | **Value**       | **Units**  |
 | Input Line Voltage                                                  | 100-240         | VAC        |
 | Frequency                                                           | 50-60           | Hz         |
-| Phase                                                               | 1 phase                     ||
+| Phase                                                               |  1 phase  ||
-| User-serviceable fuse((Located in power receptacle on rear panel))  | T 2.0 A L 250V              ||
+| User-serviceable fuse((Located in power receptacle on rear panel, bubble 5 in <imgref back>))  |  T 2.0 A L 250V              ||
 </tabcaption></WRAP>
@@ Line 71: / Line 82: @@
  Never connect or disconnect the SLICE-DHVs to/from a laser with the SLICE-DHV energized.
-As with <wrap em>__any__</wrap> flexible instrumentation, improper usage can cause irreparable damage to the device.
+As with <wrap em>__any__</wrap> flexible instrumentation, improper usage can cause irreparable damage to the device.  Please take note of all warnings and cautions.
 </WRAP>
-=====Specifications=====
+===== Specifications =====
-<WRAP center round box 60%><tabcaption specs|Specifications of SLICE-DCC>
+<WRAP center round box 60%><tabcaption specs|Specifications of SLICE-DHV>
-|  **Performance((Subject to change without notice))**                                                          ||
+|  **Performance((Subject to change without notice))**                                                                                          ||
-^ **Parameter**                                                        ^ **Value**                               ^
+^ **Parameter**                                         ^  **Value**                                                                             ^
-| Channels        |  2                                      |
+| Number of Channels                                    |  2                                                                                     |
-| Control                                                              |  Touch Screen, GUI, Serial commands     |
+| Control Interfaces                                    |  Touch screen, USB 2.0                                                                 |
-| Output Voltage Range  |  0-200 V  |
+| Output Voltage Range                                  |  0-200 V                                                                               |
-| Operation Modes                                                      |  Low-gain/High-bandwidth((±10 V modulation around nominal set point)) \\ High-gain/Low-bandwidth((full-scale modulation))  |
+| Gain Ranges                                      |Unity Gain: ±10 V around a user-settable voltage\\ Full Range: 0-200 V  |
-^  Gain  ^^
+^  Modulation Gains                                                                                                                             ||
-|  Low\\ High  |  1 V/V \\ 20 V/V  |
+|Unity Gain \\ Full Range                   |  1 V/V \\ 20 V/V                                                                       |
-^  Bandwidth  ^^
+^  Bandwidth                                                                                                                                    ||
-|  High \\ Low  |  >200 kHz((depends on capacitance of load, see <tabref bandwidth>))\\  >10 Hz  |
+|Small Signal\\ Large Signal                          |  >1 MHz, unloaded\\ <20 Hz, C<sub>load</sub> <0.5 µF                                           |
-| Current Capacity  |  ±90 mA  |
+^  Performance                                                                                                                                  ||
-| Voltage Noise  |  150 µV((rms, integrated from 100 kHz to 1 Hz))  |
+| Output Current                                        |  ±200 mA                                                                                |
-| Accuracy  |  <2%  |
+| Modulation Input Voltage Range                        |  ±10 V((see note in <tabref no_neg>))                                                  |
-| Drift  |  0.2 mV/°C  |
+| Voltage Noise                                         |  <450 µV rms (10 Hz - 100 kHz)                                                          |
-| Triggering                                                           |  TTL                                    |
+| Accuracy                                              |  <1%                                                                                   |
+| Drift                                                 |  0.2 mV/°C                                                                             |
+| Triggering                                            |  5V TTL                                                                                   |
+</tabcaption></WRAP>
+<WRAP center round box 60%><tabcaption no_neg|>
+|  {{ :warning-sign.png?300&nolink }}  | Most PZTs should not be driven with negative voltages, and the user should consult the specified safe operating voltage range for their PZT.  Be aware that the high-voltage output can be driven to a minimum of -10 V when applying a modulation.   |
 </tabcaption></WRAP>
@@ Line 99: / Line 116: @@
 ===== Front Panel =====
-An image of the front panel is shown in <imgref front>.  The functions and connections are as follows:
+An image of the front panel of the SLICE-DHV is shown in <imgref front>.  The functions and connections are as follows:
-  - Channel indicator
+  - Channel indicator; touch for [[slice:dhv#setting_the_operation_mode|Channel parameter settings]]
-  - High-voltage ON/OFF
+  - [[slice:dhv#turning_on_the_high_voltage|High-voltage ON/OFF]]
-  - Bias set point
+  - [[slice:dhv#setting_the_bias_voltage|Bias set point]]
-  - Output voltage indicator
+  - [[slice:dhv#bar_graph_and_output_voltage_indicator|Output voltage indicator]]
-  - Parameter input adjustment knobs
+  - [[slice:dhv#entering_values|Parameter adjustment rotary knobs]]
-  - Maximum voltage indicator
+  - [[slice:dhv#setting_the_voltage_limit|Maximum voltage indicator]]((as set by User))
-  - Control signal inputs
+  - Front-panel [[slice:dhv#modulation_control_of_the_slice-dhv_output|control signal inputs]]
-  - Control bar
+  - [[slice:dhv#control_bar|Control bar]]
-  - Range set point
+  - [[slice:dhv#internal_ramp_function|Internal ramp amplitude]]
-  - Internal sweep ON/OFF
+  - [[slice:dhv#internal_ramp_function|Internal sweep ON/OFF/SWEEP TUNE selection]]
-  - Visual output voltage indicator
+  - [[slice:dhv#bar_graph_and_output_voltage_indicator|Visual output voltage indicator]]
-  - Signal monitor outputs
+  - [[slice:dhv#programmable_input_output|Signal monitor outputs]]
 <imgcaption front|Front of SLICE-DHV>[[https://www.vescent.com/manuals/lib/exe/fetch.php?media=slice:dhv:slice-dhv_front-panel_numbered_1_mb-rev-2-253-kb.png|{{ :slice:dhv: slice-dhv_front-panel_numbered_1_mb-rev-2-253-kb.png?600x300 |}}]]</imgcaption>
 ===== Rear Panel =====
 An image of the rear panel is shown in <imgref back>.  The functions and connections are as follows:
+  - Serial Number location
+  - High Voltage output (CH 2; BNC)
+  - [[slice:dhv#modulation_control_of_the_slice-dhv_output|Modulation input]] (CH 2; SMA)
   - Main On/Off power switch
+  - Fuse location((User-serviceable fuse: T 2.0 A L 250V))
   - AC line power in((See <tabref v_rng> for acceptable input ranges))
-    - User-serviceable fuse (T 2.0 A L 250V)
+  - [[slice:dhv#triggering|Output trigger]] (BNC)
-  - Output trigger (BNC)
+  - [[slice:dhv#triggering|Input trigger]] (BNC)
-  - Input trigger (BNC)
+  - USB port for [[slice:dhv#serial_api|serial communication]] (Type B)
-  - USB port (Type B)
-<imgcaption back|View of rear of SLICE-DHV>{{ :slice:dhv:load_rear_image.png?600x300 |}}</imgcaption>
+<imgcaption back|View of rear of SLICE-DHV>{{ :slice:dhv:slice-dhv_rear-panel_numbered_305_kb.png?600  |}}</imgcaption>
+<WRAP center round box 60%>
+| {{ :electric_shock.png?300&nolink }}  | Use caution when connecting the SLICE-DHV to your device.  The SLICE-DHV can output up to 200 V without an input signal. It is advised that you power off the device before making connections to it.                                                      |
+</WRAP>
 ===== Getting Familiar with the SLICE-DHV =====
+The SLICE-DHV is designed to be operated from the touch screen GUI and/or [[slice:dhv:api| serial commands]] delivered from a Windows® 10 PC over the USB connection on the back of the chassis.  Both the touch screen and serial commands allow access to all of the SLICE-DHV functionality.
 ==== Screen Navigation ====
 ==== Home Screen ====
-The touch screen interface and the Host GUI operate in a substantially similar way, except touch is substituted for a click in the touch screen interface.
+/*  The touch screen interface and the Host GUI operates in a substantially similar way, except touch is substituted for a click in the touch screen interface. */
-When presented with a given view, it is possible to select the functionality or edit the values in a field bordered in <color black/hsl(213, 80%, 60%)>blue</color>.  When a particular field is actively being edited, its border will change to <color black/yellow>yellow</color>.  The ability to edit a <color black/yellow>yellow-bordered</color> filed will automatically time out after about XX s.  The Home Screen of the SLICE-DHV is shown in <imgref home_scr_dhv> and is reached by touching the home button (<imgref home_butt>) in the upper left corner of the touch screen. From the Home screen, summary control over the two channels is possible, including setting the bias voltage.  From the Home screen, you can edit the control parameters for each channel.
+When presented with a given view, it is possible to select the functionality or edit the values in any field bordered in <color black/hsl(213, 80%, 60%)>blue</color>.  When a particular field is actively being edited, its border will change to <color black/yellow>yellow</color>.  The ability to edit a <color black/yellow>yellow-bordered</color> field will automatically time out after about 60 s and the border will turn back to <color black/hsl(213, 80%, 60%)>blue</color>.  The Home Screen of the SLICE-DHV is shown in <imgref home_scr_dhv> and is reached by touching the home button (<imgref home_butt>) in the upper left corner of the touch screen. From the Home screen, summary control over each of the two channels is possible, including setting the bias voltage.  From the Home screen, you can edit the control parameters for each channel.
 In general, the status displayed in an editable field is the current status (not the result of touching the button).  Touch the button to select a new value/status.  For instance, in <imgref home_scr_dhv> both channels are ON.  Touching the ON button will stop voltage output to the given channel.\\ \\
@@ Line 140: / Line 165: @@
 ==== Home Button ====
 <imgcaption home_butt|Home button>{{ :slice:slice-qt-home-button.gif?77x75 |}}</imgcaption>
-Returns to [[slice:dhv#Home Screen|Home screen]] (<imgref home_scr_dhv>).
+Returns to [[slice:dhv#Home Screen|Home screen]].
 ==== Back Button ====
 <imgcaption back_butt|Back button>{{ :slice:slice-qt-back-button.gif?77x75 |}}</imgcaption>
@@ Line 146: / Line 171: @@
 ==== Lock Button ====
 <imgcaption lock_butt|Lock button (shown in unlocked mode)>{{ :slice:slice-qt-lock-button.gif?77x75 |}}</imgcaption>
-Locks out further modification of parameters. Touch to lock or unlock parameter entry.  When in lock mode, it is still possible to toggle the current on and off, but it will not be possible to change the set point or other operation parameters.
+Locks out further modification of operation parameters. Touch to lock or unlock parameter entry.  When in lock mode, it is still possible to toggle the ramp on and off, but it will not be possible to turn on the high voltage, change the bias voltage, or edit other operation parameters.
 ==== I/O Button ====
 <imgcaption io_butt|I/O button>{{ :slice:slice-qt-i-o-button.gif?77x75 |}}</imgcaption>
@@ Line 152: / Line 177: @@
 ==== System Settings Button ====
 <imgcaption sys_butt|System settings button>{{ :slice:slice-qt-settings-button.gif?77x75 |}}</imgcaption>
-Enters screen for [[#System Settings|system control settings]] (brightness, volume, etc.).
+Enters screen for [[#System Settings|system operational settings]] (brightness, volume, etc.).
 ==== Entering Values ====
-In most instances, there are two methods for entering parameter values: the physical rotary knobs on the front panel and the pop-up keypad on the touch screen.  When using the knobs to change the value of a parameter, changes take effect immediately.  When using the keypad, changes do not take effect until the enter key is touched.
+In most instances, there are two methods for entering parameter values: the physical rotary knobs on the front panel and the pop-up keypad on the touch screen.  When using the knobs to change the value of a parameter, changes take effect immediately.  When using the keypad, changes do not take effect until the Enter key is touched.
-<WRAP center round important 60%>In order to afford maximum resolution, the least significant digit will not necessarily change to precisely your target value and will be coerced to the nearest acceptable value, which is limited by the digitization scheme for the set point.  For instance, you may select a set point current of 151.13 mA, but the closest allowed digitized value may be 151.14 mA.
-</WRAP>
 === Rotary Knobs ===
-If you touch an editable field for a brief moment, the border of the field will change from <color black/hsl(213, 80%, 60%)>blue</color> to <color black/yellow>yellow</color> and a cursor will appear under one of the digits of the parameter value (<imgref Iset_knob>).  By turning the right knob, it is possible to increase (cw) or decrease (ccw) the value of the underlined digit.  Turning the left knob will change which digit is editable (cw to move to the right and ccw to move to the left).  Changes made with the rotary knobs take effect immediately. \\ \\
+If you touch an editable field for a brief moment, the border of the field will change from <color black/hsl(213, 80%, 60%)>blue</color> to <color black/yellow>yellow</color> and a cursor will appear under one of the digits of the parameter value (<imgref Vset_knob>, CH 1 DC Bias [V] field).  By turning the right knob, it is possible to increase (cw) or decrease (ccw) the value of the underlined digit.  Turning the left knob will change which digit is editable (cw to move to the right and ccw to move to the left).  Changes made with the rotary knobs take effect immediately. Touch the yellow-bordered field again to exit the edit mode.\\ \\
-<imgcaption Iset_knob|Knob adjustment of Current set point for CH 1>{{ :slice:dcc:ch_1_set_current_with_knobs.png?430x254 |}}</imgcaption>
+<imgcaption Vset_knob|Knob adjustment of Bias Voltage set point for CH 1>{{ :slice:dhv:slice-dhv_bias_set_via_knobs.jpg?430 |}}</imgcaption>
 === Keypad ===
-If you touch and hold an editable field such as the current set point, a numeric keypad will appear as seen in <imgref keypad>.  You can enter in the full value of the desired parameter with this keypad.  Changes entered through the keypad are not enacted until the Enter key is touched.\\ \\
+If you touch an editable field for a longer period of time (~3 s), a numeric keypad will appear as seen in <imgref keypad>.  You can enter in the full value of the desired parameter with this keypad.  Changes entered through the keypad are not enacted until the Enter key is touched.\\ \\
-<imgcaption keypad|Pop-up Keypad>{{ :slice:dcc:ch_1_set_current_keypad.png?430x254 |}}</imgcaption>
+<imgcaption keypad|Pop-up Keypad>{{ : slice:dhv:slice-dhv_keypad_entry_of_sweep_range.jpg?430 |}}</imgcaption>
+/* <WRAP center round important 60%>In order to afford maximum resolution, the least significant digit will not necessarily change to precisely your target value and will be coerced to the nearest acceptable value, which is limited by the digitization scheme for the set point.  For instance, you may enter a bias voltage point of 20.14 V, but the closest allowed digitized value may be 20.15 V.
+</WRAP> */
 The action initiated by each button of the keypad is described below.
@@ Line 181: / Line 206: @@
 ==== Extendable Legs ====
-The SLICE-DCC has four extendable legs (<imgref belly>).  Extending the front legs allows easy viewing from above (<imgref dcc_prod_shot>) and extending the rear legs (<imgref side>) allows easy viewing from below.
+The SLICE-DHV has four extendable legs (<imgref belly>).  Extending the front legs allows easy viewing from above (<imgref dhv_prod_shot>) and extending the rear legs (<imgref side>) allows easy viewing from below, for instance, when placed on a shelf above a laser table. Extending both the front and rear legs makes the SLICE box look like a very strange bug.
-<WRAP half column><imgcaption belly|Underside of SLICE-DCC>{{ :slice:dcc:dcc_underbelly_labelled.png |}}</imgcaption>
+<WRAP half column><imgcaption belly|Underside of SLICE-DHV>{{ :slice:dcc:dcc_underbelly_labelled.png |}}</imgcaption>
 </WRAP>
-<WRAP half column><imgcaption side|Side view of SLICE-DCC configured for viewing from below>{{ : slice:dcc:slice-dcc_looking_down.png?400 |}}</imgcaption></WRAP>
+<WRAP half column><imgcaption side|Side view of SLICE-DHV configured for viewing from below>{{ : slice:dcc:slice-dcc_looking_down.png?400 |}}</imgcaption></WRAP>
-===== SLICE-DCC Operation =====
+===== SLICE-DHV Operation =====
-The Home screen displays the status of both channels (<imgref home_scr_dcc>).  The data for each channel is arranged vertically.   At a glance, for each channel, I<sub>set</sub>, and Compliance Voltage can be read.  Touching the blue window labelled Voltage [V] will cause this window to toggle from displaying  Compliance Voltage to displaying dissipated Power.
+The Home screen displays the status of both channels (<imgref home_scr_dhv>).  The data for each channel is arranged vertically.   At a glance, for each channel, the ON/OFF status, the output voltage, the nominal bias voltage, the Sweep Range (amplitude) for the internal Sweep function, and internal Sweep function status can all be read.
-==== Setting the Operation Mode ====
-The SLICE-DCC has two operation modes: Constant Current and Constant Power.  The operation mode, as with most other operating parameters can be set independently for each channel.  To toggle between Constant Current and Constant Power modes, from the Home screen, touch the window labelled either CH X Constant Current or CH X Constant Power.  If the channel is in Constant Current Mode, you will be presented with the window seen in <imgref cc_param>. \\
-<imgcaption cc_param|Setting Maximum Current>{{ :slice:dcc:ch_1_settings_constant_current.png?430x254 |}}</imgcaption> \\
+==== Bar Graph and Output Voltage Indicator ====
+The blue bar graph and output voltage indicator (bubbles 11 & 4 in <imgref front>) report the high voltage output. This display is intended to display the "DC" value of the output with an update rate of about 4 Hz and will not capture faster transient behavior of the output. These displays offer quick visual identification of the output voltage and can help visualize drift in feedback control applications.
+==== Setting the Gain on the Input Signal ====
+The Gain on the input control signal can be set to either 1 or 20.  When the gain is 1, the input modulation signal is directly summed with the DC Bias to produce the high voltage output.  This mode is useful for limiting the voltage range of the high voltage output to ±10 V around the DC bias operating voltage. \\
-If the channel is in Constant Power mode, you will be presented with the window seen in <imgref cp_param>. \\
+When the Gain is set to 20, the input signal is multiplied by 20 and then summed into the DC bias.  This mode allows the modulation input to drive the high voltage output over the entire 0 to 200 V range of the SLICE-DHV.  In this mode the DC Bias defaults to zero voltage but can be adjusted to add a DC Bias to the modulation signal if desired.   Note that the large-signal bandwidth will be limited when the Gain is set to 20 to less than 20 Hz, but that the small-signal bandwidth (±10V) will be identical to that when Gain = 1. \\
-<imgcaption cp_param|Selecting Constant Power mode parameters>{{ :slice:dcc:constant_power.png?430x254 |}}</imgcaption> \\
+To change the Gain, touch the CH 1 (or CH 2) field at the top of the channel column.  You will be presented with <imgref CH_settings>.  Touch the Modulation Mode field to drill down to <imgref mod_mode> and select either G=1 V/V; Range = ±10 V or G=20 V/V; Range = 0-200.
+<imgcaption CH_settings|Setting parameters of individual channel>{{ : slice:dhv:slice-dhv_ch_settings_changed.jpg?430 |}}</imgcaption>
-Touching the Window labeled Control Mode will allow you to toggle the channel back & forth between Constant Current and Constant Power modes as seen in <imgref cc_cp>.
+<imgcaption mod_mode|Select modulation mode>{{ : slice:dhv:slice-dhv_signal_processing_mode_selection.jpg?430 |}}</imgcaption>
-<imgcaption cc_cp>|Constant Current or Constant Power>{{ :slice:dcc:cc_cp_toggle.png?430x254 |}}</imgcaption> \\
+====Choosing Current Limited or Full Bandwidth====
-==== Setting the Current Limit ====
+On newer models of the SLICE-DHV, a feature was added which allows the user to switch the Modulation Mode of their unit between Current Limited, and Full Bandwidth. These two modes control the amount of drive current which can be sent through the output op-amp to modulate the load attached to HV out. In Full Bandwidth mode, the current through the op-amp is not limited, giving the SLICE-DHV a larger modulation bandwidth. The drawback, however, is that the output op-amp will occasionally go into thermal shutdown, or show distortions when driven especially hard, or with larger loads. In Current Limited mode, the output op-amp is throttled slightly to prevent the thermal shutdown and distortions seen in Full Bandwidth mode. However, using Current Limited mode slightly reduces the overall bandwidth of the system.
-The user can set a maximum deliverable current so as not to exceed the rated maximum for their device.  From the Home screen, touch the window labelled either CH X Constant Current or CH X Constant Power. Depending on the operation mode, you will be presented with either <imgref cc_param> or <imgref cp_param>.
-Touch the Current Limit window and enter the maximum allowed current (in mA) as in <imgref set_imax>. \\ <imgcaption set_imax|Set Current Maximum>{{ slice:dcc:cpset_current_limit_keypad.png?430x254 |}}</imgcaption>
-==== Setting the Operating Current in Constant Current Mode ====
-In Constant Current mode a linear regulator minimizes current noise & fluctuations.
-To set the current set point from the home screen, touch the Set point window for the desired channel.  A long touch will cause a keypad to appear (<imgref home_Iset1>).  Enter desired value and touch the accept button.
+It is recommended to use the Full Bandwidth modulation mode if in the small signal regime (G=1 output mode, < 20 Vpp modulation), and to switch the SLICE-DHV into its Current Limited modulation mode if larger modulations (G=20 output mode, > 20 Vpp modulation) are required. This will help to prevent thermal shutdown. Certain systems may require different settings than these, though, depending on their specifics. For a more in depth discussion of choosing between Full Bandwidth and Current Limited, see our application note [[https://vescent.com/us/amfile/file/download/file/34/product/171/|Load Size Selection and Limiting Factors of the SLICE-DHV’s Modulation Output]].
+==== Setting the Voltage Limit ====
+The user can set the maximum voltage output on a given channel so as not to exceed the rated maximum for their device.  From the Home screen, touch the CH 1 (or CH 2) field to see <imgref CH_settings>.  Touch the Voltage Limit [V] field to set the maximum voltage output. The bar graph output indicator on the Home screen will scale automatically with the maximum voltage set point. \\
-A short touch will highlight the Setpoint window in yellow (<imgref Iset_knob>).  Use rotary knobs to select digit to edit (left knob) and value for digit (right knob).\\
+|  <WRAP important></WRAP>  |This voltage limit circuit in the DHV hardware limits the voltage (including the modulation input) to the user defined limit when using the G=20 V/V mode.  However, this hardware limit does not cap the modulation input in the G=1 V/V.  Therefore, when operating in the G=1 V/V mode, if the user were to set the nominal voltage set point to the user-defined maximum voltage output point, the output with a +10 V modulation input would exceed the user-defined limit by 10 V |
-<imgcaption home_Iset1|Keypad adjustment of Current set point for CH 1>{{ :slice:dcc:ch_1_set_current_keypad.png?430x254 |}}</imgcaption>
+==== Setting the Bias Voltage ====
+To set the bias voltage about which the SLICE-DHV will operate on a given channel, touch the DC Bias [V] field on the Home screen.  Depending on the length of the touch, either a view similar to <imgref Vset_knob> allowing rotary knob input or a keypad similar to <imgref keypad> will be displayed.  Set the nominal bias voltage. \\
-==== Setting the Operating Power in Constant Power Mode ====
+==== Turning on the High Voltage ====
-To set the power set point in Constant Power Mode from the home screen, touch the window labelled Setpoint [mW] and enter the target power level (<imgref cp_setp>).  If the window is labelled Set Point [mA], the device is in Constant Current mode and must first be [[slice:dcc#setting_the_operation_mode|switched to Constant Power mode]].
-It is possible to adjust the Power Setpoint when the system is either ON or in Standby mode.
+<WRAP center round box 60%>
+| {{ :electric_shock.png?150&nolink }}  | The SLICE-DHV can output up to 200 V without an input signal. It is advised that you power off the device before making connections to the high voltage output.                                                      |
+</WRAP>
+To turn on (turn off) the high-voltage output touch the HV OFF (HV ON) field on the Home screen.
-<imgcaption cp_setp|Setting the power set point in Constant Power mode>{{ slice:dcc:set_power_cp.png?430x254 |}}</imgcaption>
+==== Internal Ramp Function ====
-==== Enabling Current ====
+The SLICE-DHV has an internal ramp function for sweeping the voltage output. The ramp is a sawtooth wave.
-When the blue window labeled Enable reads OFF, the system is in standby mode and no current is delivered. Briefly touching this window will, after a 5 s pause during which a warning light will flash, cause current to begin to flow and the window will read ON.
-==== Rear-Panel Modulation ====
+To set the sweep rate((0-30 Hz)) of the ramp, touch the CH 1 (or CH 2) field to see <imgref CH_settings>.  Touch the Sweep Rate [Hz] field and set the desired rate. \\
-On the rear panel of the SLICE-DCC is an SMA input for servoing or modulating the current output.  (<imgref back>, item 9).  The transfer function for this input depends on the current capacity (see <tabref specs>).  The input range is ±10 V.  The current can be modulated over the full range of current except for the 2,000 mA model which can only swing ±500 mA.  The 3-dB bandwidth of this modulation input is DC to 1 MHz.
-It is also possible to introduce a modulation/control signal from the front-panel input BNC.  Only one input port can be active at a time.
+To set the amplitude of the ramp((0-200 V)), touch the Range [V] field on the Home screen and set the desired ramp amplitude. \\
-<WRAP center round box 60%>
+To turn on (or turn off) the ramp, touch the Sweep OFF (or Sweep ON) field to see <imgref sweep_ctrl>.  Choose the desired operation mode.
-| {{ :warning-sign.png?300&nolink }} |Although there is protection circuitry to reduce reverse biasing the diode, negative voltages as high as -0.5 V can be applied.  It is not advisable to modulate under conditions where negative voltage would be applied. Avoid low current set points with large-amplitude modulation.|
-| {{ :warning-sign.png?300&nolink }} |Make sure that the modulation input cannot drive the current above the maximum rated current for your device by [[slice:dcc#Setting the Current Limit|setting the Current Limit appropriately]].  |
-</WRAP>
-==== Constant Power Mode ====
+<imgcaption sweep_ctrl|Controlling the internal ramp>{{ : slice:dhv:slice-dhv_sweep_mode_select.jpg?430 |}}</imgcaption> \\
-In Constant Power mode, the SLICE-DCC accepts a current input signal from the output of a photodiode (often internally mounted with the diode laser).  This signal is conditioned by a trans-impedance amplifier and used as an error signal.  It is further processed by a loop filter to provide a correction signal to the current to maintain constant power.
-<WRAP center round box 60%>
+=== Sweep Tune Mode of Internal Ramp ===
-| {{ :warning-sign.png?400&nolink }}  | Warning.  Make sure the Current Limit is set below the recommended maximum current for your laser diode and that the monitor photodiode is working and delivering a signal to the SLICE-DCC before engaging Constant Power mode.  If a signal proportional to the laser power from the monitor diode is not delivered to the SLICE-DCC, the current may ramp to its maximum allowed value when Constant Power mode is engaged.  |
-</WRAP> \\
-  - Connect the output of the monitor photodiode to the CH X Photodiode Input connector (labelled "10" in [[slice:dcc#rear_panel|the back-panel image]]) on the back of the SLICE-DCC.\\ \\ In order for Constant Power mode to operate correctly, the user must set three control parameters: the responsivity of the monitor photodiode, the gain of the loop filter, and the polarity of the photodiode response.  Before setting these control parameters. first [[slice:dcc#setting_the_operation_mode|set the SLICE-DCC in Constant Power mode]] and [[slice:dcc#setting_the_operating_power_in_constant_power_mode|set the Power Setpoint]].  From the home screen, enter the CH X Settings screen by tapping the window labelled CH X: Constant Power.  Enter values for Detector Response, Gain, and monitor photodiode Polarity. \\ \\
-  - Enter the value of the detector response supplied in the documentation that came with your monitor photodiode. (<imgref cp_param_set>) <imgcaption cp_param_set|Setting the detector response for Constant Power mode>{{ slice:dcc:cp_set_responsivity_knobs.png?430x254 |}}</imgcaption>
-  - Turn the Gain all the way to 0 (zero).  Turn the system ON to deliver current to the diode.  Slowly turn up the Gain until the power begins to oscillate (<imgref cp_gain>).  (Hint; It is easiest to adjust the gain for this step via the knobs as opposed to through the keypad.) Turn down the Gain until oscillation stops. <imgcaption cp_gain|Setting the Gain for Constant Power>{{ slice:dcc:cp_set_gain.png?430x254 |}}</imgcaption>
-  - If more Gain moves the power away from the set point, switch the polarity from Positive to Negative (or vice versa).
-===== Programmable Input & Output =====
-The SLICE-DCC has two programmable inputs (labelled A & B) and two programmable outputs (labelled 1 and 3) on the front panel.  It also has a rear panel trigger input and trigger output.  Touching the I/O window on the control bar will open a screen similar to that seen in <imgref io_main>,  From here, it is possible to assign control information input to the two inputs and system performance data to the two outputs,
-<imgcaption io_main|I/O programming window>{{ :slice:dcc:i-o_programmed.png?430x254 |}}</imgcaption>
+The Sweep Tune mode allows interactive control over the internal ramp parameters.  This mode can be used to center the output of the SLICE-DHV on a particular feature of the experiment.
-These front-panel inputs and outputs are mainly intended for __monitoring__ the performance of the SLICE-DCC and as such have slower, noisier components than the rear-panel connections.
+When in Sweep Tune mode, the Home screen will change to appear similar to <imgref sweep_tune>, with an R in a red circle in the DC Bias field and an L in a blue circle in the Range field.  In Sweep Tune mode, the user can turn the right knob to actively adjust the bias and the left knob to actively adjust the range. The rotary knob will affect the underlined digit in the respective parameter field. To change which digit is affected by rotation of the knob, push to click the knob and the cursor under the active digit will cycle through from right to left, selecting the next most significant digit after each click.
+<imgcaption sweep_tune|Sweep Tune mode>{{ :slice:dhv:slice-dhv-tune-mode.png?430 |}}</imgcaption>
-==== Programmable Input (Front-panel Modulation) ====
-From <imgref io_main>, if one touches either the A or B input window, the choices for input for that channel are presented (<imgref io_input>).
-<imgcaption io_input|Input choice for front-panel input>{{ :slice:dcc:i-o_input_equals_modulation.png?430x254 |}}</imgcaption>
+Only one Channel can have Sweep Tune mode active at any given time.
-The only input option is a modulation signal.  The SLICE-DCC can respond to a modulation or control signal over a bandwidth of DC to 1 MHz.  Only one of the two modulation input ports (rear-panel SMA, <imgref back>, item 9 or front-panel BNC, <imgref front>, item 2) can be active at any given time.  Activating the front-panel input via the screen in <imgref io_input> automatically disconnects the rear-panel input.
+When in Sweep Tune mode:
+  * The rotary knob edit method is not available for the DC Bias and Range fields.  Only keypad editing is allowed.
+  * DC Bias and Range readouts for the channel react to rotary knob actions while the Settings menu is displayed but no rotary edit is in progress on that menu.
-The depth and index of modulation varies depending on the current capacity of the particular SLICE-DCC unit.  See <tabref specs>.
+==== Modulating the SLICE-DHV Output ====
+The user can input an analog voltage signal to control the output of the SLICE-DHV. Before introducing a modulation signal, make sure you have selected the [[slice:dhv#Setting_the_Modulation_Mode|desired modulation gain]].  \\
+The default modulation input port is the SMA connector on the rear panel (bubble 3, <imgref back>).  The user can also program the SLICE-DHV to accept the modulation signal from the front-panel INPUT A for Channel 1 and INPUT B for Channel 2.  Only one modulation input for a given channel can be active at any given time.  To toggle between modulation input locations touch the I/O icon on the control bar and then the relevant INPUT field (A for CH1 or B for CH 2; <imgref input_a>). Select OFF for rear-panel input or Modulation Input for front-panel input.
+While similar in performance, the rear-panel SMA input will have minimum noise.  Use this input when possible.
+===== Programmable Input & Output =====
+The SLICE-DHV has two programmable inputs (labeled A & B, bubble 7 in <imgref front>) and two programmable outputs (labeled 1 and 2, bubble 12 in <imgref front>) on the front panel.  It also has a rear-panel trigger input and trigger output.  Touching the I/O icon on the control bar will open a screen similar to that seen in <imgref io_main>
+<imgcaption io_main|I/O programming window>{{ : slice:dhv:slice-dhv_i-o_main_screen.jpg?430 |}}</imgcaption>
+==== Programmable Input ====
+From <imgref io_main>, it is possible to assign the front-panel input as the source of the modulation/control input signal (normally assigned to the SMA connector on the rear panel of the SLICE-DHV). Touching the A Input field displays the menu seen in <imgref input_a>.  From here, rear-panel modulation input (default; blank field) or front-panel modulation can be selected.
+<imgcaption input_a|I/O programming window>{{ : slice:dhv:slice-dhv_inpput_programming.jpg?430 |}}</imgcaption>
+Only one modulation/control input can be active at any given time for a given Channel.  If the front-panel modulation/control input is activated, the rear panel modulation/control input is deactivated & vice versa.
 ==== Programmable Output ====
-From <imgref io_main>, if one touches either the 1 or 2 output window, the choices for output for that channel are presented (<imgref io_output>).
+The front-panel output can be programmed to deliver a monitor of the high voltage output (<imgref output_1>).  The transfer function is V<sub>monitor</sub> = 0.05 * V<sub>output</sub>
+<imgcaption output_1|Output programming window>{{ : slice:dhv:slice-dhv_output_programming.jpg?430 |}}</imgcaption>
+These front-panel inputs and outputs are mainly intended for __monitoring__ the performance of the SLICE-DHV and as such have slower, less quiet performance than the rear-panel connections.  \\
+CH 1 can only be assigned to Input 1 and Output A.  Likewise CH 2 can only be assigned to Input 2 and Output B.
-<imgcaption io_output|Output choices for front-panel input>{{ :slice:dcc:i-o_set_outoput.png?430x254 |}}</imgcaption>
-One can choose to monitor the current output and/or the optical power as measured at the photodiode input.
 ==== Triggering ====
-External control of the SLICE-DCC is accomplished via a TTL trigger.((https://en.wikipedia.org/wiki/Logic_level)) 0 to 0.8 V TTL is low and 2 to V<sub>CC</sub> is TTL high.
-=== Trigger Out ===
-The Trigger Out on the back panel of the SLICE-DCC can be programmed to go high if an interlock (key or door) is opened.  The screen shown in <imgref trigger_out> will be reached by touching I/O > Trigger Out.  Checking the box will cause the Trigger Out to go high if either the door interlock or the key interlock is opened.
-<imgcaption trigger_out|Setting an output trigger>{{ : slice:dcc:trigger_interlock.png?430x254 |}}</imgcaption>
-=== Trigger In ===
-The input trigger can be used to turn on or off the current for either or both channels.  From any screen, touch I/O > Trigger In.  You will be presented with the window in <imgref trigger_in>.  Select which channels you wish to control with the incoming trigger.  In <imgref trigger_in_2>, current to CH 2 will be disabled if the Trigger In goes high.
-<imgcaption trigger_in|Programming the rear-panel trigger in>{{ :slice:dcc:i-o_set_input_trigger.png?430x254 |}}</imgcaption>
+=== Input Trigger ===
+The HV output can be remotely activated and deactivated by a TTL trigger introduced at the back panel of the SLICE-DHV (bubble 8, <imgref back>). If the Trigger In on the back side of the SLICE-DHV is activated, the high-voltage output can be shut off by pulling the input low and turned on by allowing the input to go high.  (With no input, this signal is pulled high and so the HV out is active.) \\
+In order to activate the Trigger In, touch the I/O icon on the control bar to see the I/O screen (<imgref io_main>).  Touch the blue field labeled Trigger In on the selection screen in <imgref trig_in> and select which channels you wish to control with the input trigger.
+<imgcaption trig_in|Trigger In controls both CH 1 and CH 2>{{ : slice:dhv:slice-dhv_trigger_in.jpg?430 |}}</imgcaption>
+=== Output Trigger ===
+A TTL trigger output in sync with either of the internal ramps can be obtained at the Trigger Out (bubble 7, <imgref back>).  Touch the I/O icon on the control bar to see the I/O screen (<imgref io_main>).  Touch the blue field labeled Trigger Out for the selection screen in <imgref trig_out> and select the ramp from which channel the trigger out signal shall be derived.  The end of the ramp is in sync with the falling edge of the trigger.
+Only a single Channel may be chosen for outputting a trigger at any given time.
-<imgcaption trigger_in_2|CH 2 is controlled by input trigger>{{ :slice:dcc:i-o_set_input_trigger_disable.png?430x254 |}}</imgcaption>
+<imgcaption trig_out|Trigger Out is in sync with CH 2 ramp>{{ : slice:dhv:slice-dhv_trigger_out.jpg?430 |}}</imgcaption>
+s
 ==== System Settings ====
 Touching the System Settings button on the Control Bar (<imgref sys_butt>) will open the System Settings screen as seen in <imgref settings>.
-<imgcaption settings|User-programmable system settings>{{ :slice:dcc:settings.png?430x254 |}}</imgcaption>
+<imgcaption settings|User-programmable system settings>{{ : slice:dhv:slice-dhv_settings.jpg?430 |}}</imgcaption>
-=== User Interface Appearance ===
+=== Screen Brightness and Volume Adjustment ===
 From this screen, adjustments to the brightness of the screen and the volume of the audio feedback can be made.
 === Input Impedance ===
-Change the input impedance of the two front-panel input ports.  Select either 50 Ω or 1 MΩ.
+Change the input impedance of the two front-panel input ports.  Select either 50 Ω or 1 MΩ. For most applications of the SLICE-DHV, a 1 MΩ impedance should be chosen.
-=== SLICE Firmware ===
-Current firmware versions are reported here.
-<WRAP center round box 60%><tabcaption firmware_rev |Most recent firmware versions as of 6 June 2019>
-| Firmware | Version Level | Release Date |
-| System Controller| 1.24| 23 May 2019|
-| DCC| TBD| TBD|
-</tabcaption></WRAP>
-From time to time, Vescent will upgrade the firmware for controlling the SLICE-DCC.  The procedure to upgrade the firmware is given [[slice:dcc:firmware|here]].
-=== Host GUI ===
-If accessed through a PC [[slice:qt#Using the Host GUI|Host GUI]], the Settings screen (<imgref GUI_settings>) also has the ability to assign the COM port for the device.  If viewed through the GUI, there are no brightness or volume controls as these should be set on the PC directly.
-<imgcaption GUI_settings|User-programmable system settings from host GUI>{{ : slice:slice-qt_gui_settings.jpg?400x254 |}}</imgcaption>
-===== Error States =====
-==== Interlock Open ====
-If either the key switch is deactivated or the interlock is opened while the system is operating, the SLICE-DCC will stop delivering current and the Enable window will flash red with INTERLOCK displayed (<imgref inter_open>). In order to resume normal operation, interlocks must be restored to their operational state and the window must be touched to reset the tripped interlock. \\
-<imgcaption inter_open|Interlock Open state>{{ slice:dcc:interlock_open.png?430X254 |}}</imgcaption>
-==== Open Circuit ====
-If the SLICE-DCC attempts to deliver current, but is unable to do so, it assumes an open circuit fault.  The Enable window on the Home screen for that channel will flash red with the warning "Open Circuit/Over Voltage" (<imgref open>).
-<imgcaption open|Open Circuit detected>{{ slice:dcc:open_circuit.png?430x254 |}}</imgcaption>
-===== Using the Host GUI =====
-It is possible to control the SLICE-DCC from a Windows<sup>®</sup>-based PC using the GUI written for this purpose.  In order to use the GUI, you must first download the latest version, connect the PC to the SLICE-DCC, and assign a COM port to the SLICE-DCC.  The following describes the steps involved.
-  - Download and store the latest GUI executable from [[ https://github.com/Vescent|the Vescent FTP site]] (or request copy of executable GUI from [[[email protected]|sales [at] vescent [dot] com]]).
+===== Using the PC Host GUI =====
-  - Connect the SLICE-DCC to the PC using a USB type B cable.
+Coming soon, please check back later.
-  - Turn on the SLICE-DCC.
-  - On the PC, double click on the SLICE-DCC GUI to start the GUI.
-  - On your PC, go to Start > Control Panel > Device Manager > Ports
-    - Identify which COM Port is labeled "STMicroelectronics Virtual COM Port (COMXX)" or similar.  Note the value of XX.
-  - On the SLICE-DCC GUI, click on the Settings icon {{:slice:slice-qt-settings-button.gif?77x77}} to get to the window shown in <imgref com>. <imgcaption com|Settings screen when viewed by GUI>{{ :slice:slice-qt_settings_gui.png?430x350 |}}</imgcaption>
-  - Click on the OFF button below COM Port. You should see a menu similar to the one shown <imgref com1>. NOTE: The COM port numbers may differ from those shown below.<imgcaption com1 |COM port selection>{{ :slice:slice-qt_gui_com.png?430x350 |}}</imgcaption>
-  - Select the COM port identified in the step above (usually the last COM port in the list; COM11 in this example). The window in <imgref com2> should appear if the connection is successful.<imgcaption com2|Ready to upgrade>{{ :slice:slice-qt_gui_com2.png?430x350 |}}</imgcaption>
-The GUI should now actively control the SLICE-DCC.  You should only have to do the above steps once from a given PC.  After assigning the COM port, the system will recognize the device in the future (unless you reassign the COM port to another device).
 ===== Firmware Update =====
 From time to time, Vescent will upgrade the firmware for controlling the SLICE-DCC.  The procedure to upgrade the firmware is given [[https://github.com/Vescent|here]].
 ===== Serial API =====
-It is possible to control the SLICE-DCC through serial commands.  Click here to access the [[slice:dcc:API|SLICE-DCC API]].
+It is possible to control the SLICE-DHV through serial commands.  Click here to access the [[slice:dhv:API|SLICE-DHV API]].
-Please contact [[[email protected]|sales [at] vescent [dot] com]] for information.
+<WRAP round important 100%>
+Upgrading the SLICE-DHV firmware is not always necessary to use the Serial API. Check your installed firmware version in the settings menu against the most recent firmware version given [[https://github.com/Vescent/SLICE-DHV-Firmware-Upgrade|here]].
+</WRAP>
+Please contact [[[email protected]|sales [at] vescent [dot] com]] for information.
 ===== Maintenance =====
 There are no user-serviceable parts inside this instrument. Refer all repairs to the manufacturer.  Work performed by persons not authorized by Vescent Photonics may void the warranty.