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Theory of Operation—2445 Service

U2134. The Row data placed on the buffered Data Bus by

the  Microprocessor  is  clocked  into  the  registers  as  two,
eight-bit  words  by  clocks  from   the  Address  Decode  cir
cuitry  (DAC  LSB  CLK  for  the  lower  eight  bits  and  DAC

MSB CLK fo r the upper eight bits). A ll eight outputs of
register U2134 and two outputs o f register U2034 drive the

ten rows o f the front-panel switch m atrix (the eleventh

line is not used in the matrix). Series resistors in the lines
lim it current flo w and eliminate noise problems associated

w ith excessive current flow.

While each row is selected, the processor w ill scan each

o f  the  five  lines  in  sequence.  To  scan  the  columns,  the
processor  increments  the  three  data  select  bits  to  U2034
that  define  the  column  to  be  checked.  Eight-line  data
selector  U2456  connects  the  associated  column  line  to
Status  Buffer  U2108.  As  each  line  is  selected,  the  Micro

processor reads the Status Buffer to determine if the

associated switch is open or closed.

In addition to the front-panel switches, the CAL/NO

CAL jumper (P501) is checked to determine whether

the instrument should be allowed to execute the calibration

routines.  The  levels  on  U2456  pins  7  and  9  are  read  by
scanning tw o additional  columns at power-up.  If the jumper
is  pulling  the  CAL  b it  LO,  the  operator  w ill  be  allowed  to
use  the  calibration  routines  stored  in  firmware.  If  the  NO
CAL  bit  is  pulled  LO,  the  calibration  routines  may  not  be
performed.  If  the  jumper  is  removed,  and  neither  bit  is
pulled  LO,  the  Microprocessor  is  forced  into  a  special

diagnostic mode (CYCLE) used to record certain operating
failures during long-term testing of the instrument. (See the

"Maintenance" section o f this manual fo r an explanation of

the diagnostic modes.) Removing P501 or switching it

between  the  CAL  and  NO  CAL  positions  w ill  not  be
recognized  by  the  Microprocessor  until  the  instrument  is
powered  down  and  then  turned  back  on.

The SI (scope identification) b it is checked at power-up

to determine if the instrument is a 2445. Some parts o f the

firmware  are  shared  w ith  a  similar  instrument,  the  2465,
and  the  check  is  necessary  fo r  the  Microprocessor  to
distinguish  between  the  two  instruments.  A  HI  on  the  SI
b it  indicates that the  instrument  is a 2445.

The resistors in series w ith the input lines to U2456 are

current-lim iting  resistors  that  protect  the  CMOS  eight-line
data  selector  from   static  discharges.  The  resistors  con
nected  from   the  input  lines  to   the  +5-V  supply  are pull-up

resistors fo r the front-panel column lines.

Digital-to-Analog Converter (DAC)

DAC U2234 is used to set the various analog references

in the instrument and is used to determine the settings of

the front-panel potentiometer. The 12-bit digital values to

be converted are w ritten to octal registers U2034 and
U2134 fo r application to the DAC input pins. The DAC

then outputs tw o complementary analog currents that are

proportional to the digital input data. (Complementary, in

this case, means that the sum of the tw o output currents is
always equal to a fixed value.)

The maximum range of the output currents is estab

lished by a voltage-divider network composed o f R2127,

R2227, R2228, and R2229 connected to the positive and

negative reference current inputs o f the DAC (pins 14 and

15 respectively). A +10-V reference voltage applied to the

DAC through R2228 sets the basic reference current.

Resistor R2229 and potentiometer R2127 provide a means

to adjust this current over a small range fo r calibration

purposes. The nominal reference current is 1 mA, and the
DAC full-scale output current is 4 mA. The output currents

flow through series resistors R2324 and R2325, connected
to the +1.36-V reference, and proportional voltages result.

Pot Scanning

The Pot Scanning circuitry, in conjunction w ith the

DAC, derives digital values for each of the various front-

panel potentiometers. Scanning of the pots is accomplished
by data selectors U2408 and U2418. Three bits are written

to register U2208 and select the pot to be read. The bits are

latched  in  the  register  and  keep  the  pot  selected  until  the
register  is  reset.  The  Microprocessor  writes  a  LO  to  the
inhibit  input  (pin  6)  o f  either  U2408  or  U2418via  register
U2308  to  enable  the  device.  The  enabled  data  selector

connects the analog voltage at the wiper o f the selected pot
to comparator U2214.

Comparator U2214 compares the analog voltage of each

pot to the output voltage from the DAC (pin 18). To

determine the potentiometer output voltage, the processor

performs  a  binary  search  routine  that  changes  the  output
voltage  from   the  DAC  in  an  orderly  fashion  until  it  most
closely  approximates the voltage from the pot.

The conversion algorithm is similar to successive approx

imation  and  generates  an  eight-bit  representation  of  the
analog  level.  When  the pot's value  is determined, the  Micro
processor  stores  that  value  in  memory.  Once  all  the  pots
have  been  read  and the  initial value of each  has been stored,

the processor uses a shorter routine to determine if any pot
setting changes. To do this the DAC output is set to the last

known  value o f the  pot  (plus and  minus a small d rift value),
and  the  status  b it  is  read  to see that  a  HI  and  LO  occurs.  If
w ithin  the  limits,  the processor assumes that the  pot setting

has not changed and scans the next pot. When the processor

detects that a pot setting has changed, it does another

binary search routine to find the new value of that pot.