Difference between revisions of "MATLAB amplifier in detail"

Revision as of 18:27, 2 July 2007

The model of the SiPM amplifier is a system of 24 equations in 24 variables that has been linearized so that it can be solved by MATLAB.

Parameters and variables

The MATLAB model has a number of parameters and variables to describe the amplifier circuit, including the 24 unknowns, 4 inputs, and numerous constants.

Input parameters

There are four input parameters:

Input current: $I_{in}$ (A)
Bias voltage: $V_{b}$ (V)
Power voltage: $V_{c}$ (V)
Frequency: $f$ (Hz)

Unknown variables

There are twenty-four unknown variables. The locations (and directions in the case of currents) are labeled on the circuit diagram.

Node voltages: $V_{1}$ $V_{1}$ , $V_{2}$ $V_{2}$ , $V_{3}$ $V_{3}$ , $V_{4}$ $V_{4}$ , $V_{5}$ $V_{5}$ , $V_{7}$ $V_{7}$ , $V_{out}$ $V_{out}$
- Note: there is no $V_{6}$ on this circuit; it was a redundant variable with $V_{c}$ .
Resistor currents: $I_{1}$ , $I_{2}$ , $I_{3}$ , $I_{4}$ , $I_{5}$ , $I_{6}$ , $I_{7}$ , $I_{t}$
Transistor currents: $j_{b}$ , $j_{c}$ , $j_{e}$ , $k_{b}$ , $k_{c}$ , $k_{e}$
Capacitor currents: $h_{1}$ , $h_{2}$ , $h_{3}$

Constants

Resistors

The resistance values are mostly the same as those marked on the actual amplifier itself, however $R_{4}$ and $R_{6}$ were changed for better agreement of the model with the desired responses. See the article on the actual SiPM Amplifier for details on that circuit.

Component	Resistance
$R_{1}$	$100{\mbox{k}}\Omega$
$R_{2}$	$10{\mbox{k}}\Omega$
$R_{3}$	$5.6{\mbox{k}}\Omega$
$R_{4}$	$1.2{\mbox{k}}\Omega$
$R_{5}$	$1{\mbox{k}}\Omega$
$R_{6}$	$53\Omega$
$R_{7}$	$240\Omega$
$R_{t}$	$50\Omega$

Capacitors

The capacitors are not labeled on the amplifier itself or in the documentation supplied with the amplifier, so the following values are guesses as to the capacitances. Note that $C_{4}$ does not exist.

Component	Capacitance
$C_{1}$	$100{\mbox{nF}}$
$C_{2}$	$0.1{\mbox{nF}}$
$C_{3}$	$100{\mbox{nF}}$
$C_{5}$	$10{\mbox{nF}}$

Transistors

The transistor parameters used are selections from the Gummel-Poon SPICE model parameters for these two parts.

Parameter	Description	$T_{1}$ value	$T_{2}$ value
VT	temperature voltage	0.0259	0.0259
BF	ideal forward maximum $\mathrm {B}$	93	34
NF	forward current emission coefficient	0.99	1.0
IS	transport saturation current	0.24 fA	0.44 fA
ISE	B-E leakage saturation current	2.4 fA	87 fA
NE	B-E leakage emission coefficient	1.46	1.94
RB	zero-bias base resistance	21 $\Omega$	5 $\Omega$
RE	emitter resistance	0.37 $\Omega$	1 $\Omega$

@@ Line 26: / Line 26: @@
 ==== Resistors ====
-The resistance values are mostly the same as those marked on the actual amplifier itself, however <math>R_4</math> and <math>R_6</math> were changed for better agreement of the model with the desired responses.  See the article on the actual [[SiPM amplifier]] for details on that circuit.
+The resistance values are mostly the same as those marked on the actual amplifier itself, however <math>R_4</math> and <math>R_6</math> were changed for better agreement of the model with the desired responses.  See the article on the actual [[SiPM Amplifier]] for details on that circuit.
 {| align="center" border="0" cellpadding="8" cellspacing="0" style="text-align:left"
-| ''Component'' || ''Capacitance''
+| ''Component'' || ''Resistance''
 |-
 | <math>R_1</math> || <math>100\mbox{k}\Omega</math>
@@ Line 47: / Line 47: @@
 | <math>R_t</math> || <math>50\Omega</math>
 |}
 ==== Capacitors ====