Hi guys,
I think this is kind of a newbie question. but... What output transformer spice model do you usually use in your simulations?
I'm using the XFRM_NONLINEAR from the breakout lib, but I this model doesn't include the dc impedance and I think doesn't properly model the reactance either.
thanks for the attention
-Miguel
I think this is kind of a newbie question. but... What output transformer spice model do you usually use in your simulations?
I'm using the XFRM_NONLINEAR from the breakout lib, but I this model doesn't include the dc impedance and I think doesn't properly model the reactance either.
thanks for the attention
-Miguel
Hi
what spice software are you using?( I use Mcap 7)
I usually model output trafo with coupled chokes.
If I also had to simulate hysteresis than I
chose an appropriate non linear core.
DC resistance, parassitic capacitance and
leakage inductance are non difficult to add.
Federico
what spice software are you using?( I use Mcap 7)
I usually model output trafo with coupled chokes.
If I also had to simulate hysteresis than I
chose an appropriate non linear core.
DC resistance, parassitic capacitance and
leakage inductance are non difficult to add.
Federico
you can make a "current to voltage converter" a "perfect transformer" and then add all of the imperfections yourself -- primary and secondary leakage inductance, interwinding capacitance, DC resistance
and in a paper Marshall Leach wrote in the Journal of the Audio Engineering Society --(Vol 43 No. 3, 1995 March pp 117-126)
*Transformer Model Subcircuit
.subckt trans p1 st1 ct st2 p2 s1 s2
R1 P1 1 "R1"
L1 1 SG1 "L1"
R2 SG1 2 "R2"
L2 2 CT "L2"
R3 CT 3 "R3"
L3 3 SG2 "L3"
R4 SG2 4 "R4"
L4 4 P2 "L4"
R5 S1 5 "R5"
L5 5 S2 "L5"
KALL L1 L2 L3 L4 L5 "k"
.ends
Leached used 0.9988 as the coupling constant KALL
*Transformer Model Subcircuit
.subckt trans p1 st1 ct st2 p2 s1 s2
R1 P1 1 "R1"
L1 1 SG1 "L1"
R2 SG1 2 "R2"
L2 2 CT "L2"
R3 CT 3 "R3"
L3 3 SG2 "L3"
R4 SG2 4 "R4"
L4 4 P2 "L4"
R5 S1 5 "R5"
L5 5 S2 "L5"
KALL L1 L2 L3 L4 L5 "k"
.ends
Leached used 0.9988 as the coupling constant KALL
Attachments
I expect Marchall Leach had a particular transformer in mind. My experience is that there's a huge difference between output transformers once you start measuring. And as for trying to make a model that accurately replicates their behaviour under all loading conditions...
The stock 3f4 model in Circuit Maker Student is fair accurate to a Hammond.
Look at the sample "vtpwramp.ckt" that's included with the program. The model params passed on are in Kohms to CT (not P-P) and secondary.
Look at the sample "vtpwramp.ckt" that's included with the program. The model params passed on are in Kohms to CT (not P-P) and secondary.
Here's the SPICE model for "AUdio Transformer 10:1
in Multisim:
.SUBCKT ts_audio_10_to_1 1 2 3 4 5
* EWB Version 4 - Transformer Model
* n= 10 Le= 1e-006 Lm= 0.001 Rp= 1e-006 Rs= 1e-006
Rp 1 6 1e-006ohm
Rs1 10 3 1e-006ohm
Rs2 11 5 5e-007ohm
Le 6 7 1e-006H
Lm 7 2 0.001H
E1 9 8 7 2 0.05
E2 8 4 7 2 0.05
V1 9 10 DC 0V
V2 8 11 DC 0V
F1 7 2 V1 0.1
F2 7 2 V2 0.1
.ENDS
You can adjust the values for 100:1 etc. I attach also a sketch of what the SPICE connections seem to be (node 12 on the schematic is node 7 in the sub-circuit model)
in Multisim:
.SUBCKT ts_audio_10_to_1 1 2 3 4 5
* EWB Version 4 - Transformer Model
* n= 10 Le= 1e-006 Lm= 0.001 Rp= 1e-006 Rs= 1e-006
Rp 1 6 1e-006ohm
Rs1 10 3 1e-006ohm
Rs2 11 5 5e-007ohm
Le 6 7 1e-006H
Lm 7 2 0.001H
E1 9 8 7 2 0.05
E2 8 4 7 2 0.05
V1 9 10 DC 0V
V2 8 11 DC 0V
F1 7 2 V1 0.1
F2 7 2 V2 0.1
.ENDS
You can adjust the values for 100:1 etc. I attach also a sketch of what the SPICE connections seem to be (node 12 on the schematic is node 7 in the sub-circuit model)
Attachments
That model is backwards
The center tap should be on the primary and this will not work by just reversing pri for sec like a real transformer.
I'm going to take a crack at this because I have an entire Fender Deluxe Reverb-AMPAB763 modeled in Micro Cap with the exception of the O/P transformer.
Why is this so difficult to find?
The SPICE code and the pic really helped though. I should be able to go the other way with it.
Thanks!
The center tap should be on the primary and this will not work by just reversing pri for sec like a real transformer.
I'm going to take a crack at this because I have an entire Fender Deluxe Reverb-AMPAB763 modeled in Micro Cap with the exception of the O/P transformer.
Why is this so difficult to find?
The SPICE code and the pic really helped though. I should be able to go the other way with it.
Thanks!
couplingfactor "k" 0.9988 seems a bit low and even with high impedance pentode drive would give only mediocre high frequency response.
I assumed this transformer had much tighter coupling.
Are you sure "k" is not 0.99988 instead?