EMRFD Chapter 6 Errata.
(22March08)
p6.6, right column 3.3 inches down from text
top: "A" becomes "An" instructive .... (2Apr03)
p6.11,
left col, 5.6 inches down from text top: change "a"
to "an" in ...produced an almost... (2Apr03)
p6.11, left col, 3.3 inches
down from text top: change "with" to "without" . (27July03)
p6.11, middle column, 2.0 inches down from text top: replace
"An NF of" with "A NF of" (9Dec03)
p6.14. Fig 6.37.
The figure was missing the reference designators
used in the caption. The updated figure is shown below.
(17Mar03)
Fig 6.37
(9 Dec 03) Note: The first
version of this figure we had on the web was wrong. The "pull-up" resistor
to +12 V should go to Q2 rather than to the anode of the diode.
The circuit in the 2nd printing of EMRFD is correct.
p6.20. Fig. 6.49(C).
The bottom most Vx should be Vy. (16Mar03)
p6.21. Fig. 6.53(D). The line
from the emitter marked "V-d" should be marked "V-c"
. (16Mar03)
p6.21, left col, 0.9
inches down from text top. Replace "RFCs" with "RFC"
(27July03)
p6.25, Fig. 6.57.
Mod the drawing by adding a reference designator, C2.
This is the 1uF/6 volt capacitor on the gate of Q9. (27July03)
p6.25, Fig 6.57. The 1N4152 diode at the bottom of the
drawing should have the direction reversed. The cathode
should attach to the 22K resistor. (10Nov05)
p6.26, col 3, two
lines up from text bottom. There is no "t" in Schwarz.
(27July03)
p6.29,
left col, 2.3 inches up from text bottom: change "ask"
to "asked" (2Apr03)
p6.34, Fig 6.70, caption: R10 should be 6.8 Ohms and not
6.8K-Ohms. (26Dec06)
p6.37, col
1, 3.1 inches down from text top. replace "in need for some"
with "in need of some" (27July03)
p6.40,
Fig. 6.78. The resistor at the base of Q3 is 22K.
Fig. shown below. (4june03)
Fig. 6.78.
p6.44 ,
bottom of right text column: replace "Fig. 6.84"
with "Fig. 6.81A" (2Apr03)
p6.45, right
column, 1 inch up from bottom of text: Replace with
"...102 dB and Receiver factor R=+5 dBm." (4May03)
p6.47,
right column, 2.3 inches down from text top: The sentence
beginning with "The lower reverse.." is technically confusing.
Replace this complete sentence with "The lower
second stage reverse isolation generated an input impedance
independent of output termination for the two stage design."
(2Apr03)
p6.47, Fig 6.87. Add label designating
-6V, shown below (10Aug03)
p6.48, col 3, 1.6 inches down
from top. Replace sentence "Symmetry
is emphasized in the construction method shown in
the photographs." with "Symmetry is emphasized
in the construction." (10Aug03)
p6.49, Fig 6.90.
The figure had problems with the numbering
of the pins on the transformer, resulting in a phasing problem.
The proper information is shown in the new figure
below. Add the following sentence to the caption for
the figure: "Pay particular attention to the pin numbering
for transformers T2 and T3."
This is the former figure. This
errata not valid. See
below. (17Sept03)
p6.49, Fig 6.90. This figure continued to have problems in both the
first and second printing of the book. Moreover, we didn't get it right
in the errata of 17Sept03 shown above. So Bill, W7AAZ, came to our
rescue and pulled a board from the early version of his transceiver and traced
the circuit. The circuit below is the one that resides in a working
transceiver. Continue to pay particular attention to the pin numbering
for transformers T2 and T3.
This shows the configuration. I have added some color to make sure
that we differentiate this from the earlier drawings. Red phasing dots
have also been added to the drawing to emphasize the relationship, not only
between the primary and secondary of transformers T2 and T3, but between the
two halves of the secondary.
Consider a point in time when the LO signal has a positive voltage on pins
10 and 13 of the FST3125M. This means that the two left switches in
the mixer IC will be "closed" while the right ones are "open." This
is shown below.
The right switches are open, so are not part of the circuit at this instant
in time. Moreover, we have eliminated the transformer halves connected
to them, for no current flows in those windings at that point in time. We
can now use this diagram to trace the path between the RF transformer and
the IF output and show that the phase relationship is additive for the two
current components reaching the IF load. A similar diagram for the
negative LO phase can also be generated.
This is not the only way that the transformers can be connected and produce
a functioning circuit. However, this is one from a working transceiver.
No matter what transformer connections might be used, the boundary
conditions must be met. (Many thanks to Bill for pulling a board to
answer these questions.) By now, many other analog switching
integrated circuits have been used in this application by advanced experimenters.
The pin numbering may well be different with them. The
fundamental ideas remain the same. The definitive reference is the
work of PA3AKE at http://www.xs4all.nl/~martein/pa3ake/hmode/index.html (14March08)
p6.50, Fig 6.93
caption. Alter sentence to become "The variable
capacitors with Y3 and Y4 are adjusted to match that
filter to the one using Y1 and Y2." (10Aug03)
p6.51, Fig 6.94. There is an error in the input transformer
in the schematic. The original is partially shown here:
Only the first FET is shown here, but there are four JFETs in parallel.
The original schematic shows the gate as being at the 5th turn on a
6 turn transformer. In reality, the gate is across the full transformer
while the input is applied to the tap. The new, correct schematic
is below:
Corrected Fig 6.94. The data in the text was obtained from the
circuit shown above. That is, the thing was properly built, but the
schematic was in error. (22March08)
p6.52, left column, 0.8 inch down from top: replace "effort
that anticipated" with "effort than anticipated." (29Jan06)
p6.53,
left col, 0.5 inches down from text top: "obtain"
becomes "obtained" (2Apr03)
p6.53, middle col in section
6.6, 0.9 inches up from bottom: Replace "later"
with "latter" (2Apr03)
p6.53, 1st col, 1.7 inches
down from text top. Replace FMT3125 with FST3125.
(3Dec03)
p6.53, 3rd column,
3 inches down from top. Replace "receives" with
"receivers" (3Dec03)
p6.54, left
column, 0.5 inches up from text bottom: "+17-dBm
LO" becomes "+17 dBm LO" (2Apr03)
p6.57, col 3, just above Transmitter
IF Systems section. The final sentence should
become "A project elsewhere in the book (Fig 6.152)
uses this topology with a diode ring balanced modulator."
(10Aug03)
p6.60, Fig 6.107. We got into trouble because
we pulled this figure in from an earlier QST article. The labels
on the input and output don't make sense. So at the input, cross
out the two lines, leaving only the "-10 dBm" part. At the output
end, cross out the reference to "C, Fig 5" and add "output."
(29Jan06)
p6.62. Fig. 6.112 is missing
some parts. Here's the proper figure:
Fig 6.112. (24Feb03)
p6.63,
Fig. 6.113. Eliminate the "+8V" that is next
to the BFO Input label. (2Apr03)
p6.64, col 1, 1.0 inch
down from text top. Make sentence become "...in
U4 to adjust balance." (10Aug03)
p6.66, Fig 6.118. Change the 10K resistor between R1, the
"TX Trim" control and the inverting (-) input of the op-amp to a 5K. (Actually,
a 4.7 K would work fine.) This will then allow the circuit to
be set up to achieve the voltage levels quoted. With R1 set to generate
0.75 volt, V-cont will be 7.5 volts during TX or "RIT off." With
RIT on, V-cont should vary from 5.5 to 10.5 volts. (3Aug07)
p6.67. left column, 1.5 inches down from top: replace
"...stopped tuning and listen to" with "...stopped tuning and
listened to"
p6.67, right column, up 1.8 inches from bottom: replace
"..is less then" with "..is less than". (29Jan06)
p6.68, right column, 0.4 inch up from bottom: replace "...line
go low" with "...line goes low". (29Jan06)
p6.68, Fig 6.122B. The diode as shown in
part B of the figure does nothing to protect transistor Q1.
Move diode D1 so it is between the collector of Q1 and the +12 volt
power supply rail as shown. Now, when a "T" period ends and Q1
stops conducting, the current flowing in the relay will continue to flow
for a while in the diode and will not cause a voltage spike that might break
Q1. The new figure is shown here:
(7June04)
p6.70, right column, 1.2 inches down
from text top. Remove the ) from the end of the text.
(26Mar03)
p6.71, col 1, 3rd line down from top of text.
"600-V" becomes "1000-V" (10Aug03)
p6.74 and 6.75,
Fig 6.132. There are several reference designators
missing in this schematic that are referenced from the
text. Having them in the schematic diagram facilitates
the text descriptions. Add the following
designators:
J1 The Mic input, upper left
corner of diagram.
R1 The 20K pot at the Mic input.
J2 The receiver input labeled
RX In, 2.4 inches down from top border of figure, and
on left side.
J4 Connector attached to capacitor
that then attaches to collector of Q2.
D2 Attached to col of Q2.
D3 Attached to col of Q3.
J5 Connector attached to capacitor
that then attaches to collector of Q3.
J16 The connector coming from
"CO1" which is above Q15.
J17 The connector coming from "CO2"
which is above Q15.
J19 The connector coming from "LO1"
which is above Q14.
J20 The connector coming from "LO2"
which is above Q14.
(Now we move to the right hand part of the figure,
p6.75)
C36 Shunt to ground capacitor
attached to L4, the inductor coming from the 6 dB pad,
upper left of page.
R58 20K pot attached to source
of Q10, 4.0 inch up from bottom border and 5.6 inches left
of right border.
R14 20K pot on collector of
Q1, 2.3 inches up from bottom border and 4.6 inches
in from right border.
J13 Connector from CO2, 2.5
inches up from bottom and 2.7 inches over from right
edge of figure.
J14 Connector from LO2, 2.5
inches up from bottom and 1 inch over from right edge
of figure.
D6 Diode attached to collector
of Q11, bottom right corner of figure.
D7 Diode attached to collector of
Q12, bottom right corner of figure. (10Aug03)
p6.76,
col 3, 2.2 inches down from text top. Change "D1
and D2" to "D2 and D3" (10August03)
p6.78, Fig 6.136. Add the
following line to the caption for this figure: "L401 and 402 are
labeled as RF chokes, for the network is formed with molded RF chokes."
(29Jan06)
p6.81, Fig 6.142 and related discussion: See errata for page
7.43 for this date (16Aug06)
p6.83, Section Title. This should be
section number 6.10 . (7Mar03)
p6.84, Fig 6.148. The MV209 Varactor diode should be labeled
D900. (29Jan06)
p6.85, Fig 6.150. The two output
labels should be changed from "+6 dBm" to "+6 to +8 dBm" (29Jan06)
p6.86, Fig 6.151. Change the caption.
Final sentence should become "The amplifier input
resistors, now 6.8K, can be changed to set the output
power." (7Mar03)
p6.86, photo on bottom left. Replace
the caption with "The RF power chain up through Q3. See
Fig 6.154." (3Dec03)
p6.86, Fig 6.151 Caption. Change the sentence to read "T301
and T300 each have a 20-turn primary with a 5-turn secondary on FT-37-43
cores. (12Jan07)
p6.86, right column, 1 inch down from top: replace "filter
is build" with "filter is built" (29Jan06)
p6.87, Fig.
6.152. There are missing reference designators on
the drawing. Also, change the caption to read "Fig
6.152--SSB Generator. R615 and R624 should be ...."
The updated figure is shown below: (15Mar03)
Fig 6.152.
p6.88, Fig 6.154. The output low pass filter around
L3, 4, and 5 contains four capacitors. The output capacitor,
shown as a 133 pF, should be a 75 pF capacitor. (1Mar06)
.
p6.90,
Section Title. This should be section number
6.11 .. (7Mar03)
p6.90, Fig. 6.157. Add
reference designator for Q403. (10Aug03)
p6.91. Fig. 6.158. L1-L4 are 360
nH, 10 turns #26 on a T30-6. (4Mar03)