tja

RF_amplifiers/doc/build/html/_sources/amplifiers.rst.txt

@@ -20,7 +20,7 @@ layout
 .. image:: _static/single_layout.png
     :align: center
 
-the RPPD resistors are layouted that way, because i had problems using LVS with resistors and was hoping it works with the simples shape. but in the end, i didn't manage to make LVS work anyway.
+the RPPD resistors are layout that way, because i had problems using LVS with resistors and was hoping it works with the simples shape. but in the end, i didn't manage to make LVS work anyway.
 
 
 
@@ -71,7 +71,7 @@ layout
     :align: center
 
 
-on the left side of the amplifer the for 50Ω resistors are connected to the input-microstriplines.
+on the left side of the amplifier the for 50Ω resistors are connected to the input-microstriplines.
 
 
 

RF_amplifiers/doc/build/html/_sources/experiments.rst.txt

@@ -8,18 +8,18 @@ RPPD
 .. image:: _static/exp_layout.png
     :align: center
 
-there are 6 resistors aviable to measure: 
+there are 6 resistors available to measure: 
 3 in X and Y orientations
 and both versions as dummy and normal resistors
 
 
 sg13g2
 #######
 
-there is a fast BjT for measurments.
+there is a fast BjT for measurements.
 
 
 calibration kit
 ###############
 
-to measure the amplifier impedances and to see the effect of pads and wirebonding, there are an open, short and load calkit.
+to measure the amplifier impedances and to see the effect of pads and wire-bonding, there are an open, short and load calkit.

RF_amplifiers/doc/build/html/_sources/regulator.rst.txt

@@ -8,7 +8,7 @@ schematic
 .. image:: _static/shunt.svg
     :align: center
 
-this is a shunt-regulator for 3.3V and max. 50mA using a simple bandgap-reference. the reference uses MOSFET and BjT temperature coefficients, and needs only one BjT.
+this is a shunt-regulator for 3.3V and max. 50mA using a simple band-gap-reference. the reference uses MOSFET and BjT temperature coefficients, and needs only one BjT.
 
 
 layout
@@ -20,9 +20,9 @@ layout
 options
 #######
 
-there is the option to filter the refernce output via a capacitor from the ref-pad to GND. 
+there is the option to filter the reference output via a capacitor from the ref-pad to GND. 
 
-its also possibel to adjust the temperature-turning-point via the adj-pad and the voltage via the ref pad.
+its also possible to adjust the temperature-turning-point via the adj-pad and the voltage via the ref pad.
 
 
 simulation

RF_amplifiers/doc/build/html/_sources/specification.rst.txt

@@ -2,22 +2,22 @@
 specifications
 ##############
 
-there are 3 different amplifers, a voltage-regulator and some experiments
+there are 3 different amplifiers, a voltage-regulator and some experiments
 
-1. single ended lowpower amplifer
+1. single ended lowpower amplifier
     - 3.3V power supply
     - < 3.5mA current including powering of a laser-diode
     - > 30dB gain at 1GHz
     - 0..60°C
-    - low-pass corner programable via capacitor
+    - low-pass corner programmable via capacitor
 
-2. dual input differential lowpower amplifer
+2. dual input differential lowpower amplifier
     - 3.3V power supply
     - < 3.5mA current including powering of a laser-diode
     - > 10dB gain at 1GHz
     - 0..60°C
 
-3. differential lowpower amplifer
+3. differential lowpower amplifier
     - 3.3V power supply
     - < 3.5mA current including powering of a laser-diode
     - 0dB gain at 1GHz
@@ -26,14 +26,14 @@ there are 3 different amplifers, a voltage-regulator and some experiments
 4. shunt-regulator 3.3V
     - max. 50mA
     - delta tc = 0 @ 10..30°C
-    - trimable
-    - possiblity for low pass filter
+    - trimmable
+    - possibility for lowpass filter
 
-5. teststructure for RPPD matching
+5. test-structure for RPPD matching
     - see differences in x and y build resistors, does it really matter?
-    - see differences in middle and edge restisors, do we need dummy resistors?
+    - see differences in middle and edge resistors, do we need dummy resistors?
 
-6. a sg13g2 transisor
+6. a sg13g2 transistor
     - if nothing else is working, we get at least a transistor :)
 
 7. open, short & load
@@ -60,30 +60,30 @@ signals
    * - SH_GND
      - shunt-anode, connect to GND, optional current measurement
    * - 3.3V         
-     - positiv supply & shunt regulator cathode
+     - positive supply & shunt regulator cathode
 
    * - ref         
      - reference output & input. optional low-pass capacitor to GND
    * - adj         
-     - adjust the bandgab-reference via resitor to 3.3V or GND
+     - adjust the band-gap-reference via resistor to 3.3V or GND
 
 
    * - in       
-     - ampifier input
+     - amplifier input
    * - out       
-     - ampifier out
+     - amplifier out
    * - d-     
-     - differnetial amplifier inverting input
+     - differential amplifier inverting input
    * - d+     
-     - differnetial amplifier noninverting input
+     - differential amplifier non-inverting input
    * - dout     
-     - differnetial amplifier laser diode output
+     - differential amplifier laser diode output
    * - dd-     
-     - double differnetial amplifier inverting input. conncted together over two 50Ω
+     - double differential amplifier inverting input. connected together over two 50Ω
    * - dd+     
-     - double differnetial amplifier noninverting input. conncted together over two 50Ω
+     - double differential amplifier non-inverting input. connected together over two 50Ω
    * - ddout     
-     - double differnetial amplifier laser diode output
+     - double differential amplifier laser diode output
 
 
 

RF_amplifiers/doc/build/html/amplifiers.html

@@ -103,7 +103,7 @@ <h2>schematic<a class="headerlink" href="#schematic" title="Link to this heading
 <section id="layout">
 <h2>layout<a class="headerlink" href="#layout" title="Link to this heading"></a></h2>
 <img alt="_images/single_layout.png" class="align-center" src="_images/single_layout.png" />
-<p>the RPPD resistors are layouted that way, because i had problems using LVS with resistors and was hoping it works with the simples shape. but in the end, i didn’t manage to make LVS work anyway.</p>
+<p>the RPPD resistors are layout that way, because i had problems using LVS with resistors and was hoping it works with the simples shape. but in the end, i didn’t manage to make LVS work anyway.</p>
 </section>
 </section>
 <section id="differential-amplifier">
@@ -129,7 +129,7 @@ <h2>schematic<a class="headerlink" href="#id3" title="Link to this heading"><
 <section id="id4">
 <h2>layout<a class="headerlink" href="#id4" title="Link to this heading"></a></h2>
 <img alt="_images/ddiff_layout.png" class="align-center" src="_images/ddiff_layout.png" />
-<p>on the left side of the amplifer the for 50Ω resistors are connected to the input-microstriplines.</p>
+<p>on the left side of the amplifier the for 50Ω resistors are connected to the input-microstriplines.</p>
 </section>
 </section>
 <section id="amplifier-simulations">

RF_amplifiers/doc/build/html/experiments.html

@@ -89,17 +89,17 @@ <h1>experiments<a class="headerlink" href="#experiments" title="Link to this hea
 <section id="rppd">
 <h2>RPPD<a class="headerlink" href="#rppd" title="Link to this heading"></a></h2>
 <img alt="_images/exp_layout.png" class="align-center" src="_images/exp_layout.png" />
-<p>there are 6 resistors aviable to measure:
+<p>there are 6 resistors available to measure:
 3 in X and Y orientations
 and both versions as dummy and normal resistors</p>
 </section>
 <section id="sg13g2">
 <h2>sg13g2<a class="headerlink" href="#sg13g2" title="Link to this heading"></a></h2>
-<p>there is a fast BjT for measurments.</p>
+<p>there is a fast BjT for measurements.</p>
 </section>
 <section id="calibration-kit">
 <h2>calibration kit<a class="headerlink" href="#calibration-kit" title="Link to this heading"></a></h2>
-<p>to measure the amplifier impedances and to see the effect of pads and wirebonding, there are an open, short and load calkit.</p>
+<p>to measure the amplifier impedances and to see the effect of pads and wire-bonding, there are an open, short and load calkit.</p>
 </section>
 </section>
 

RF_amplifiers/doc/build/html/regulator.html

@@ -90,16 +90,16 @@ <h1>shunt regulator 3.3V<a class="headerlink" href="#shunt-regulator-3-3v" title
 <section id="schematic">
 <h2>schematic<a class="headerlink" href="#schematic" title="Link to this heading"></a></h2>
 <img alt="_images/shunt.svg" class="align-center" src="_images/shunt.svg" />
-<p>this is a shunt-regulator for 3.3V and max. 50mA using a simple bandgap-reference. the reference uses MOSFET and BjT temperature coefficients, and needs only one BjT.</p>
+<p>this is a shunt-regulator for 3.3V and max. 50mA using a simple band-gap-reference. the reference uses MOSFET and BjT temperature coefficients, and needs only one BjT.</p>
 </section>
 <section id="layout">
 <h2>layout<a class="headerlink" href="#layout" title="Link to this heading"></a></h2>
 <img alt="_images/reg_layout.png" class="align-center" src="_images/reg_layout.png" />
 </section>
 <section id="options">
 <h2>options<a class="headerlink" href="#options" title="Link to this heading"></a></h2>
-<p>there is the option to filter the refernce output via a capacitor from the ref-pad to GND.</p>
-<p>its also possibel to adjust the temperature-turning-point via the adj-pad and the voltage via the ref pad.</p>
+<p>there is the option to filter the reference output via a capacitor from the ref-pad to GND.</p>
+<p>its also possible to adjust the temperature-turning-point via the adj-pad and the voltage via the ref pad.</p>
 </section>
 <section id="simulation">
 <h2>simulation<a class="headerlink" href="#simulation" title="Link to this heading"></a></h2>