Audio Transformers 293symmetry will be determined largely by the balance of
line and load impedances.
11.2.1.5 Inter-Stage and Power Output
Inter-stage coupling transformers are seldom seen in
contemporary equipment but were once quite popular in
vacuum-tube amplifier designs. They typically use turns
ratios in the 1:1 to 1:3 range and, as shown in Fig.
11-35, may use a center-tapped secondary producing
phase-inverted signals to drive a push-pull output stage.
Because both plate and grid circuits are relatively high
impedance, windings are sometimes section-wound to
reduce capacitances. Resistive loading of the secondary
is usually necessary both to provide damping and to
present a uniform load impedance to the driving stage.
Although uncommon, inter-stage transformers for
solid-state circuitry are most often bi-filar wound units
similar to line output designs.
The classic push-pull power output stage, with many
variations over the years, has been used in hi-fi gear, PA
systems, and guitar amplifiers. The turns ratio of the
output transformer is generally chosen for a reflected
load at the tubes of several thousand ohms
plate-to-plate. A typical 30:1 turns ratio may requireFigure 11-32. Typical line output application circuit.Figure 11-33. Universal isolated output application.2 k 71 k 7R 1100 nF2.2 M 730 k 74.64 k (^7) 330 pF
499 7
IN
RS < 100 7
R (^2) C
1
R 6
R 4
A 3
OP97
+^3
C 2
R 3
2
3
A 1
LME49710
6
6
+1
R 5
X 2
Brn
T 1
JT
11
EM
D 1
D 2
18 V
Red Yel
(^32) P
1
1
Line
output
Org
A 2
LME49600
- 4
+18 V
X 1
2
2
X 1 and X– are JT-OLI-3 or equivalent 2
3
2
IN + A^1
R 2
2 k 7
R 1
499 7
C 1
470 pF
18 V
D 2
D 1
X 1
X 2
3 4
T 1
JT–11–HPMC
1 2
3 2
J 1 Unbalanced
output
P 1 Balanced
(^1) output
+18 V
1