# NB: all integrators have to run with 100 nF capacitance, i.e. SLOW mode
-coefficient(1): omega0^2_1 # omega0^2 for s1
-coefficient(2): omega0^2_2 # omega0^2 for s2 # same as omega0^2_1
-coefficient(3): omega0^2_3 # omega0^2 for s3 # same as omega0^2_1
-coefficient(4): my
-coefficient(5): -1 -> -s1_0 # initial position of s1
-coefficient(6): -1 -> -s3_0 # initial position of s3
+# the following integrator has to be built up manually as THAT only has 5 integrators and we need 6
+# iintegrate -s2' -> s2
+define openamp (variable) -> result
+ isum (variable) -> result
+ connect (FB) -> GND
+
+define iintegrate6 (variable) -> integral
+ openamp variable -> integral
+ connect SJ -> cp
+ capacitor.100nF (integral) -> cp
+# this capacitance requires SLOW settings on all other capacitors. Better use an external 1 nF capacitor.
+
+alias coefficient.1 -> coefficient.omega0^2_1 # omega0^2 for s1
+alias coefficient.2 -> coefficient.omega0^2_2 # omega0^2 for s2 # same as omega0^2_1
+alias coefficient.3 -> coefficient.omega0^2_3 # omega0^2 for s3 # same as omega0^2_1
+alias coefficient.4 -> coefficient.my
+coefficient.5 (-1) -> -s1_0 # initial position of s1
+coefficient.6 (-1) -> -s3_0 # initial position of s3
# initial positon of s2, the central mass, is set to 0
iintegrate -omega0^2_1*s1, omega0^2_2*s2 -> -s1' # input is s1''
iintegrate -s1' -> s1
IC: -s1_0
invert s1 -> -s1
--s1 * omega0^2_1 -> -omega0^2_1*s1
+coefficient.omega0^2_1 (-s1) -> -omega0^2_1*s1
iintegrate -my*bracket -> -s2' # input is s2''
-# the following integrator has to be built up manually as THAT only has 5 integrators and we need 6
-# iintegrate -s2' -> s2
-openamp -s2' -> s2
- loopback: capacitor(100nF)
-s2 * omega0^2_2 -> omega0^2_2*s2
+iintegrate6 -s2' -> s2
+coefficient.omega0^2_2 (s2) -> omega0^2_2*s2
isum -omega0^2_1*s1, omega0^2_2*s2, omega0^2_2*s2, -omega0^2_3*s3 -> -bracket
--bracket * my -> -my*bracket
+coefficient.my (-bracket) -> -my*bracket
iintegrate omega0^2_2*s2, -omega0^2_3*s3 -> -s3' # input is s3''
iintegrate -s3' -> s3
IC: -s3_0
invert s3 -> -s3
--s3 * omega0^2_3 -> -omega0^2_3*s3
+coefficient.omega0^2_3 (-s3) -> -omega0^2_3*s3
+
+output s1 -> out.x
+output s2 -> out.y
+output s3 -> out.z
- output(x): s1
- output(y): s2
- output(z): s3
projects / Analog_Engine.git / blobdiff