rich-mar model v & x ultrasound operation handbook and manual · rich-mar model v & x...
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RICH-MAR MODEL V & X ULTRASOUNDOPERATION HANDBOOK AND MANUAL
Part # MN2416Rev. F
Batch 001
CAUTION
This device is not designed to be connected with any electrical equipment unless manufactured andapproved by Rich-Mar.
NOTE: This includes whirpools and carbon electrodes NOT manufactured by Rich-Mar.
TABLE OF CONTENTS
Rich-Mar Model V/X Warranty........................................4
Ultrasound Indications for Treatment.............................. 5
Ultrasound Contraindications & Warnings....................... 5
Functions of Controls..................................................... 6
Ultrasound Operation......................................................6
Front Panel Illustration.....................................................7
Combining Ultrasound with Rich-Mar Stimulation............ 8
Ultrasound Calibration & Tuning Procedure.....................10
Troubleshooting Guide................................................... 11
Rich-Mar Model V/X Specifications................................11
Appendix AUltrasound Technical Information
Appendix BRich-Mar Model V/X Parts List
Appendix CRich-Mar Model V/X Schematics
LIMITED WARRANTY
This equipment is sold under an exclusive three-year warranty from date of sale, which warrants it to be freefrom defects in material and workmanship. We agree to repair or replace at the point of manufacture, withoutcharge, all parts showing such defects, provided the unit is delivered to us, prepaid to our factory, intact forour examination, within three years from date of sale, and provided such examination discloses in our finaljudgement that it is defective.
This warranty does not apply if the equipment has been subject to misuse, neglect, accidents, incorrect wiring(not our own), improper installation, or put to use in violation of instructions furnished by us, has been dam-aged by excess voltage or has been repaired or altered outside our factory or if the equipment has had itsserial number altered or removed.
Changes: Rich-Mar reserves the right to modify or change the equipment in whole or in part, at any time priorto delivery, in order to include refinements deemed appropriate by the Company but without incurring anyliability to modify or change equipment previously delivered, or to supply new equipment in accordance withearlier specifications. This warranty will be honored only if the enclosed card is filled out and returned to thefactory. This warranty is valid only to original purchaser.
This warranty is expressly in lieu of all other warranties expressed or implied including the warranties ofmerchantability and fitness for use and all other obligations on our part, and we neither assume, nor authorizeany other person to assume for us, any other liability in connection with the sale or use of this equipment. In noevent shall we be liable for consequential or special damages. We make no warranty whatsoever in respect toaccessories or parts not supplied by us.
4
Ultrasound Indications for Treatment(Therapeutic Ultrasound)
Rich-Mar Ultrasound devices are indicated to produce therapeutic deep heat for the following condi-tions:1) Relief of pain.2) Muscle spasms.3) Joint contractures.
But not for the treatment of malignancies.
WARNING - Federal law restricts this device to sale by or on the order of a physician or any other practitionerlicensed by the law of the state in which said person practices.
Ultrasound Contraindications
ContraindicationsUltrasound should not be used in the following areas:1) Near or over the heart.2) Near or over the eyes.3) On the head.4) Near or over reproductive organs.5) On the lower back during pregnancy or over the pregnant uterus.6) Directly over the spinal column.7) Over growing bone in children.8) Where the skin suffers from any sensory impairment.9) Over areas of malignancies.10) In the area of visceral plexus and large autonomous ganglion.11) Over the thoracic area if the patient is using a cardiac pacemaker.12) Over a healing fracture.13) Over ischemic tissues in individuals with vascular disease where the blood supply would be unable to followthe increase in metabolic demand and tissue necrosis might result.
PrecautionsPrecautions should be taken when used:1) Over anesthetized areas.2) On patients with hemorrhagic diastheses.3) Ultrasound treatment should not be performed over an area of the spinal cord following laminectomy (i.e.-when major covering tissues have been removed).
Caution1) Excessive doses of ultrasound may cause damage to tissue. Periosteal pain is an indication of excess intensityand if it occurs, the power should be reduced; the transducer should be moved more rapidly over the area beingtreated; or a lower pulsed duty cycle should be used.2) If the soundhead has been operated unloaded for an extended period of time, the transducer will get hot. If thesoundhead is applied to the patient while the transducer is hot, a burn may result.
WarningDo not operate the soundhead in an unloaded condition. It is possible that unrepairable damage may occur to thetransducer in an unloaded state.
5
Rich-Mar Models V & XFunctions of Controls (See Figure 1)1) Timer: The timer serves as the main power
switch for the unit and allows the operator to setthe desired treatment time. Once the timer hasbeen activated, AC power is supplied to the unit.Once the timer reaches zero, AC power isinterrupted and the treatment is terminated. Thepanel indicates the treatment time remaining.
2) Ultrasonic Active Indicator: This light, whenon, informs the user that ultrasound is either readyto be emitted or is currently emitting from thetransducer.
3) Power On Indicator: This light informs the userthat the timer has been activated and that ACpower is being supplied to the unit.
4) Duty Cycle/ Pulse Rate Switch: This switchallows the operator to select either a 100% dutycycle or one of six other pulsed duty cycles. Thepulsed duty cycles are expressed in either per-centage duty cycle or pulses per second.
5) Duty Cycle/ Pulse Rate Indicators: Theselights give the operator a linear, visual indicationof the duty cycle in which the unit has been set.
6) Intensity Control: This allows the operator toincrease and decrease the ultrasound outputintensity to obtain the desired treatment.
7) Wattmeter: Indicates the ultrasound outputbeing produced by the unit. The upper black scalereads the output in total watts produced. Thelower blue scale reads the output produced inpeak watts per square centimeter up to 2.5W/cm2.
8) Cradle: The transducer cradle operates a switchthat will shut off the signal to the transducer.When the transducer is set in its cradle theultrasound output will be shut off until the trans-ducer is removed.
Operation(See Figure 1)Before activating the timer be sure that the IntensityControl (6) is turned fully counterclockwise. The unitis then activated by setting the desired treatment timeinto the Timer (1). Once the timer is activated thePower On Indicator (3) will be illuminated.
Next, select the desired duty cycle with the DutyCycle/ Pulse Rate Switch (4). Once the proper dutycycle has been selected the corresponding DutyCycle/ Pulse Rate Indicator (5) will be illuminated.
The ultrasound output intensity can now be increasedto the required level with the Intensity Control. Theintensity level will now be indicated on the Wattmeter(7).
NOTE: When administering an ultrasound treatment,be sure the treatment area of the patient has an amplequantity of Rich-Mar lotion or gel as a coupling me-dium. The quality and quantity of the coupling mediumhas a direct bearing on the amount of ultrasoundenergy transmitted to the treatment area.
NOTE: Even though this device is equipped with anoutput failure diagnostic feature, Rich-Mar Corporationrecommends that you perform the following on a dailybasis:
Before starting treatment, the operator should checkthe output of the unit by placing some water or cou-pling agent on the sounded and increasing the intensity.The ultrasonic output of the unit should then showcavitation (bubbling).
6
Rich-Mar Models V & XFront Panel Illustration
(Figure 1)
2. Ultrasonic Active Indicator 7. Watt Meter 3. Power OnIndicator
6. Intensity Control
1. Timer 5. Duty Cycle/Pulse Rate Indicator
4. Duty Cycle/Pulse Rate Switch
8. Transducer Cradles are located onboth sides of the unit.
7
Combining Ultrasound with Rich-Mar Stimulation(Figure 2)
The Rich-Mar Model V & X ultrasounds are designed to be connected to any Rich-Mar muscle stimulator,thus enabling the user to provide combination therapy to patients.
To connect the ultrasound unit to a stimulator, simply plug the connecting cable into the jack located on thelower right rear side panel of the unit.
Using the indifferent electrode (dispersive pad) to complete the circuit, the user will now be able to provideelectrical stimulation as well as ultrasound through the transducer.
8
9
Disinfecting RecommendationsTo disinfect the soundhead between therapy treat-ments, Rich-Mar recommends using a disinfectantcleaner for ultrasound. OSHA addresses the need forprudent infection control (OSHA Instruction CPL 2-2.44C) to include decontamination of equipmentbetween patients.
Circuit Description
Power SuppliesThere are two power supplies. One is a fixed +12 Voltsupply for necessary circuitry, and the other is adjust-able to +40 Volts. The adjustable power supply isdedicated to the main RF generator. This, in essence,adjusts the output intensity of the device. Digital logiccircuits select proper voltage range automatically tomatch whichever transducer is selected by the opera-tor.
Digitally Synthesized OscillatorThe digitally synthesized oscillator (DSO) provides anultrastable, adjustable, low-level (+12V) oscillator tomatch the optimum frequency of the transducer. Itconsists of a 2048kHz microprocessor crystal, anadjustable digital divider, and a phase-lock-loop circuit.This provides for extremely high stability both long andshort term. The output signal is then delivered to themain RF generator.
Main RF GeneratorsThe main RF generator provides the sinusoidal oscilla-tion and adjustable intensity to the transducer. Itreceives its input signal from the digitally synthesizedoscillator, amplifies this signal and then low-pass filtersthe amplified signal prior to providing the oscillation tothe transducer element.
TransducersThe transducer consists of a lead-zirconate-titanatepiezo-electric device which converts electrical energy(from the main RF generator) into acoustical energy inthe form of mechanical vibrations.
Front Panel Controls and DisplaysThe front panel of the unit provides a synchronousmotor timer for accurate treatment times, a meter foraccurate dosage (both in total power and intensity),and a pulse rate control for the selection of sevendifferent pulse rates and duty cycles. Also containedon the front panel control is a indicator showing theultrasound is active, and that the power is on.
10
Ultrasound Calibration andTuning Procedure
Ultrasound Service InformationRich-Mar Corporation recommends that all Rich-Marultrasonic therapy products be returned to the factory orto a servicing Rich-Mar distributor for service orcalibration. It is recommended that the device becalibrated annually or when any major component ischanged.
CautionCalibration and peaking adjustments must not be at-tempted unless the person performing these adjustmentshas the proper test equipment, which must include anacceptable ultrasonic wattmeter, such as the OhmicUPM-30 or equivalent. Degassed water must be usedto obtain accurate readings.
WarningUse of controls or adjustments or performance ofprocedures other than those specified herein may resultin hazardous exposure to ultrasonic energy.
These controls are as follows:Main Board
R3 – Sets the maximum power output for the10cm2 transducer.R40 - Calibrates the upper scale of the frontpanel meter.R21 - Controls the “Ultrasonic Active LED”.This must be adjusted using the 5cm2 trans-ducer.R23 - This also controls the “Ultrasonic ActiveLED”. This must be adjusted using the 5cm2
transducer.R13 - Sets the maximum power output for the5cm2 transducer.R42 – Calibrates the lower scale of the frontpanel meter.RF DeckSW1- Peaking adjustment – “rough tuning”SW2 - Peaking adjustment – “fine tuning”
Annual CalibrationValues given are for both models. If different, values inparentheses are given for the Model X.
1) Place the transducer under test in an OhmicUPM-30 watt meter, or equivalent.
2) Increase the intensity of the unit to its maxi-mum.
3) The unit should be emitting at least 10.0(21.0) watts, and no more than 12.0 (21.0). Ifthis is not the case, perform the Full Calibrationprocedure listed in the following the section.
4) Adjust R42 such that the correct front panelscale corresponds to the output of the unit.
Calibration of the unit is now complete. Check theaccuracy of the unit at 5 and 10 (and 15) watts. Thetolerance allowed by the FDA is 20% in either direc-tion.
Full Calibration Procedure1) Remove metal hole plugs from rear of unit.2) Rotate the front-panel intensity knob to its maxi-
mum setting (fully clock-wise).3) Place transducer in a UPM-30 wattmeter and set
the balance ready to read 11.0 (21.0) watts.4) Adjust R3 clockwise until the unit is emitting 11.0
(21.0) watts.5) Adjust R42 clockwise until the front-panel meter
reads 11.0 (21.0).
Calibration of the unit is now complete. Check theaccuracy of the unit at 5 and 10 (and 15) watts.Tolerance allowed by the FDA is 20% in eitherdirection.
11
Tuning (Peaking) Procedure(NOTE: This will only be required if the transducer orportions of the RF generator have been changed.)Place the transducer requiring peaking in a wattmeter.Increase the front-panel intensity until the pointer isabout one-half of its full intensity (pointer straight up).Turn the unit on, and place in the continuous setting.
1) Adjust the switch to the left on the oscillatorboard until the maximum deflection (maximumoutput) is achieved on the wattmeter. The crystalis now “roughly” peaked.
2) Decrease the switch position by one (i.e.- if theswitch was on “6”, put in “5” position). Now setthe rear switch at “0”. Begin to increment theswitches in numerical order until the maximumpower is reached. (Example: 50, 51, 52,…58, 59,60, 61, 62 is found to be the maximum because at63 the power begins to decrease.)
3) Add five to the maximum, and set the switchesaccordingly. (Continuing as described above, setthe switch position to 67.)
4) Continue with the Full Calibration Procedure.
Ultrasonic Active SettingProcedure
1) Adjust R21 fully couter clockwise (CCW), andR23 fully clockwise (CW).
2) Make certain that the transducer cable isattached to the RF deck.
3) Turn the unit on and adjust the front panelintensity until the meterl reads one watt totaloutput. Put the machine in the 10% duty cycleposition.
4) Adjust R21 clockwise until UA light comes on.5) Disconnect the RF cable. Adjust the front
panel intensity until the meter reads 3.0 watts.Adjust R23 counter clockwise until the UAlight comes on.
6) The UA light is now adjusted. Replace the RFdeck cable.
Trouble-ShootingListed below are several options for troubleshootingthe Rich-Mar Models V & X Ultrasounds. If thesesolutions fail to remedy the problem, please call theRich-Mar Service Department at 1-800-762-4665.
1.) Unit fails to turn on.Check power cord for full installation.Check fuse.Check timer connections.
2.) Ultrasonic active indicator fails to illuminate.Check to see that the cradle is in the upright position.Check internal cable connection.Check “Ultrasonic Active” setting.Check LED.
3.) Meter won’t advance.Check to see that the cradle is in the upright position.Check meter connection.Check voltage supply.
4.) Meter reads very low level and there is no“Ultrasonic Active” light on.Check to see that the opposite cradle isin the down position and that opposite transduceris hung up properly.Check to see that the cradle is in the uprightposition.
Model V & X Specifications
Input: 120VAC, 60Hz, 1.5 amp 220VAC, 50Hz
Dimensions: W-14”D-9”H-5”
Weight: 11 lbs
APPENDIX AULTRASOUND TECHNICAL INFORMATION
Ultrasound TechnicalInformation
Applicator Type:The ultrasonic radiation fields produced by Rich-Martherapeutic ultrasound transducers are of the planewave type and are essentially cylindrical in shape. Thistype of applicator is referred to as a collimating applica-tor.
Applicator Label:Each Rich-Mar applicator is labeled to provide the userwith information on its applicable parameters. Thefollowing abbreviations are used on the label.
Gen: The Rich-Mar ultrasonic generator forwhich the applicator is intended.
f: The operating frequency in MHz for theapplicator.
Area: The effective radiating area of theapplicator in square centimeters.
BNR: The Beam Nonuniformity Ratio.
Type: Coll-means collimating applicator.
Near Field/ Far FieldIf measurements are made of the sound intensity alongthe central axis of the beam produced by the applicator,the intensity distribution shows maxima and minima nearthe applicator and then a gradual decline beyond the lastmaximum intensity.The “interference” or “near field” is the area in theultrasound beam extending from the applicator surfaceto the location of the most distant intensity maximum. Inthis area, maxima and minima of intensity are locatedclose to each other. This is the area in which mosttherapeutic application occurs. This is shown in thefollowing figure measured 0.5cm from the transducerface.
Near Field Distribution
Beyond this point, the beam has a more uniformintensity and is called the “far field”. Below is shownthe far field distribution at 16cm from the transducerface.
Far Field DistributionThe preceding descriptions apply for radiation emittedinto the equivalent of an infinite medium of distilled,degassed water at 30oC.
Transducer Parameters and Tolerances:The Rich-Mar ultrasound units operate at frequenciesof either 1MHz or 3MHz +/- 10%. The effectiveradiating areas (ERA) of the transducers are ten, five,or two square centimeters, depending upon the size ofthe transducer being used. The tolerance for the ERA
is +/- 25% on the 2 and 5 square centimeter transduc-ers. The tolerance for the 10 square centimetertransducers is +0, -25%. The Beam-Nonuniformity-Ratio (BNR) for any Rich-Mar transducer is 5.5:1 orless.
100% ModeWhen operated in the 100% mode, the generatorproduces a non-interrupted sinusoidal waveform of oneor three MHz. The peak power and average powerare therefore the same.The error in indication of radiated power in intensityfor the continuous mode does not exceed +/- 14%allowing for a 6% error in the wattmeter, which equals+/- 20%.
Pulsed ModeWhen operated in the pulsed mode, the generatorproduces a square-wave burst of sinusoidal waveformof 1MHz or 3MHz of 2.5 milliseconds in duration.Depending upon the Rich-Mar model of therapeuticultrasound in use, the duty cycle can be chosen be-tween 5% and 95% duty. This then implies the repeti-tion rate is selectable between 20 and 380 pulses persecond. (This is computed by taking the inverse of theduty cycle 1/380 = .95, 1/20 = .05). The tolerance forthe pulsed mode is +/- 20%.See the following chart for second comparison on%Duty cycle to pulses.
% Duty Cycle Pulses/Second (Indicated on front panel of device)
5 2010 4015 6020 8025 10030 12035 14040 16045 18050 20055 22060 24065 26070 28075 30080 32085 34090 36095 380
The error in indication of radiated power in intensityfor the pulsed mode does not exceed +/-14% allowingfor an allowable 6% error in the wattmeter, whichequals +/-20%.
Timer AccuracyThe Food and Drug Administration requires that thetreatment timer accuracy is to within 0.5 minutes forthe preset duration of emission for settings less thanfive minutes, to within 10% of the preset duration ofemission for settings from five to ten minutes, and towithin one minute of the preset duration of emission forsettings greater than ten minutes.
Ratio of Temporal Peak to Temporal Average(Rtpa):The ratios of temporal peak to temporal averageintensities (Rtpa) will vary with the pulse rate of thedevice. Depending upon the Rich-Mar model oftherapeutic ultrasound in use, the duty cycle can bechosen between 5% and 95% duty.The Rtpa is calculated in the following manner:Rtpa = (1/Duty):1Example 5% duty = .05 (min. duty, max. Rtpa)Rtpa = (1/.05):1Rtpa = 20:1Example 95% duty = .95 (max. pulsed duty, min. Rtpa)Rtpa = (1/.95):1Rtpa = 1.05:1See the following chart for %Duty cycle to Rtpacomparison.
% Duty Cycle Rtpa (Indicated on front panel of device)
5 20:110 10:115 8.33:120 5:125 4:130 3.33:135 2.86:140 2.5:145 2.22:150 2:155 1.82:160 1.66:165 1.54:170 1.43:175 1.33:180 1.25:185 1.18:190 1.11:195 1.05:1
The Rtpa tolerance does not exceed +/- 20%.The temporal maximum intensity for each duty cycleas well as the 100% modulation is whatever is indi-cated on the meter.
The temporal average intensity for each duty cycle willbe the meter indication multiplied by the percentageduty cycle.
Temporal Average = (Duty) x (Meter Indication)Example, 5 Watts, 35% DutyTemporal Average = .35 x 5 Watts = 1.75 Watts
The Spatial Average Intensities for each of thesesetting will be divided by the transducer’s EffectiveRadiating Area (ERA)
Spatial Average = (Temporal Average)/(ERA)Example, 5 Watts, 35% Duty, 5cm2 Transducer
Spatial Average = (1.75 Watts)/(5cm2) = 0.35 Watts/cm2
The pulse width (On time) of all Rich-Mar therapeuticultrasound devices is 2.5 milliseconds (mS). The timebetween pulses (Off time) in milliseconds is calculatedas follows:
Pulse width (On time) = 2.5mSOff time=[2.5-2.5(%Duty cycle)]/(%Duty cycle)Where %Duty cycle is represented as a decimal.
Please see the following example for computing theOff time for a 10% Duty cycle:
Off tiem=[2.5-2.5(0.10)]/(0.10)=22.5 milliseconds
Additional Technical Notes:The peak power is the same in the pulsed modes as inthe 100% modulated mode.Unless otherwise stated, all technical parameters areaccurate within +/- 20%.When in the pulse modes the unit is still generatingtherapeutic heat, although it is an amount reduced by afactor directly related to the duty cycle. The pulserates are used to allow the practitioner to treat areas ofbony prominences without creating periosteal pain.The line leakage is tested in both the forward andreverse polarities to be less than 50 microamperesexceeding all standards for medical devices in thisclass.The device is designed to meet or exceed UL Stan-dards 544 for medical devices and the CanadianStandards Association (CSA), No. 125.
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3R
1647
0K 1
/2W
5%
RE
SIST
OR
RS7
155
R17
330K
1/2
W 5
%R
ESI
STO
RR
S714
8R
181
ME
G 1
/2W
5%
RE
SIST
OR
RS7
106
R19
10K
1/2
W 5
%R
ESI
STO
RR
S710
9R
2010
0K 1
/2W
5%
RE
SIST
OR
RS7
117
R21
50K
1/2
W 1
0%T
RIM
ME
R P
OT
TR
8801
R22
100K
1/2
W 5
%R
ESI
STO
RR
S711
7R
2310
0K 1
/2W
10%
TR
IMM
ER
PO
TT
R88
01R
2410
K 1
/2W
5%
RE
SIST
OR
RS7
109
R25
470K
1/2
W 5
%R
ESI
STO
RR
S715
4R
2735
.7K
1/8
W 1
%R
ESI
STO
RR
S720
8R
2828
7K 1
/8W
1%
RE
SIST
OR
RS7
222
R29
169K
1/8
W 1
%R
ESI
STO
RR
S722
0R
3010
7K 1
/8W
1%
RE
SIST
OR
RS7
217
R31
71.5
K 1
/8W
1%
RE
SIST
OR
RS7
214
R32
48.7
K 1
/8W
1%
RE
SIST
OR
RS7
212
Ric
h-M
ar M
odel
V/X
Ult
raso
und
Par
ts L
ist,
Con
t.*
DE
NO
TES
PA
RTS
FO
R T
HE
MO
DE
L X
ON
LYM
ain
Boa
rd (P
art n
ame
2644
AN
D 2
649*
)P
art #
Val
ueD
escr
ipti
onR
ich-
Mar
Par
t No.
R33
30.9
K 1
/8W
1%
RE
SIST
OR
RS7
207
R34
1 M
EG
1/2
W 5
%R
ESI
STO
RR
S710
6R
3510
0K 1
/2W
5%
RE
SIST
OR
RS7
117
R36
20K
1/2
W 5
%R
ESI
STO
RR
S712
9R
371
ME
G 1
/2W
5%
RE
SIST
OR
RS7
106
R38
10K
1/2
W 5
%R
ESI
STO
RR
S710
9R
3947
K 1
/2W
5%
RE
SIST
OR
RS7
153
R40
10K
1/2
W 5
%R
ESI
STO
RR
S710
9R
4120
K 1
/2 W
5%
RE
SIST
OR
RS7
129
R42
100K
1/2
W 1
0%T
RIM
ME
R P
OT
TR
8801
R43
330K
1/2
W 5
%R
ESI
STO
RR
S714
8R
4410
MEG
1/2
W 5
%R
ESI
STO
RR
S711
1R
45*
6.8K
1/2
W 5
%R
ESI
STO
RR
S716
7U
0140
49IN
TE
GR
AT
ED
CIR
CU
ITT
S852
9U
0240
71IN
TE
GR
AT
ED
CIR
CU
ITT
S853
4U
03L
M35
3IN
TE
GR
AT
ED
CIR
CU
ITT
S856
0U
04L
M 3
53IN
TE
GR
AT
ED
CIR
CU
ITT
S856
0U
0555
5IN
TE
GR
AT
ED
CIR
CU
ITT
S857
3U
0640
40IN
TE
GR
AT
ED
CIR
CU
ITT
S852
7U
0740
81IN
TE
GR
AT
ED
CIR
CU
ITT
S853
8U
08L
M33
9IN
TE
GR
AT
ED
CIR
CU
ITT
S855
7C
01.0
18U
FD 4
00V
CA
PAC
ITO
R,
POL
YPR
OPE
LE
NE
5%
CA
2803
C02
.020
UFD
400
VC
APA
CIT
OR
, PO
LY
PRO
PEL
EN
E 5
%C
A 2
802
C03
.018
UFD
400
VC
APA
CIT
OR
, PO
LY
PRO
PEL
EN
E 5
%C
A 2
803
C04
.1U
FD 5
00V
CA
PAC
ITO
R,
POL
YPR
OPE
LE
NE
5%
CA
2819
C05
.001
UFD
500
VC
APA
CIT
OR
, C
ER
AM
IC D
ISK
CA
2823
C06
69=8
0 PF
500
VC
APA
CIT
OR
, C
ER
AM
IC D
ISK
CA
2889
C07
.001
UFD
1K
VC
APA
CIT
OR
, D
IPPE
D M
ICA
(2)
CA
2823
C08
.1U
FD 5
0VD
IOD
E,
1N91
4C
A28
19C
R1
CO
NN
EC
TO
R,
AM
P 2P
IN .
1MD
1509
14P
01C
ON
NE
CT
OR
, A
MP
2PIN
.1M
CN
4164
P03
CN
4164
P04
CN
4164
Ric
h-M
ar M
odel
V/X
Ult
raso
und
Par
ts L
ist,
Con
t.*
DE
NO
TES
PA
RTS
FO
R T
HE
MO
DE
L X
ON
LY1
MH
z R
F D
eck
Boa
rd (
Par
t na
me
2657
)P
art
#V
alue
Des
crip
tion
Ric
h-M
ar P
art
No.
C1
.018
UFD
400
VC
APA
CIT
OR
, PO
LYPR
OPE
LEN
E 5%
CA
2802
C2
.020
UFD
400
VC
APA
CIT
OR
, PO
LYPR
OPE
LEN
E 5%
CA
2803
C3
.018
UFD
400
VC
APA
CIT
OR
, PO
LYPR
OPE
LEN
E 5%
CA
2802
C4
.1 U
FD 5
00V
CA
PAC
ITO
R, C
ERA
MIC
DIS
KC
A28
19C
5.0
01 U
FD 1
KV
CA
PAC
ITO
R, C
ERA
MIC
DIS
KC
A28
23C
6 (2
)68
0 PF
500
VC
APA
CIT
OR
, DIP
PED
MIC
A (2
)C
A28
88C
7.0
01 U
FD 1
KV
CA
PAC
ITO
R, C
ERA
MIC
DIS
KC
A28
23C
8.1
UFD
50V
CA
PAC
ITO
R, C
ERA
MIC
BLO
CK
CA
2809
CR
1D
IOD
E, 1
N91
4D
I460
2Q
115
N40
(pre
ferr
ed) o
r 10N
40 T
RA
NSI
STO
R86
98 o
r 850
2P1
CO
NN
ECTO
R, A
MP
2 PI
N .1
MC
N41
64P2
WIR
E, C
OA
XIA
L C
UST
OM
CN
4164
P2A
CO
NN
ECTO
R, A
MP
2 PI
N .1
MC
N41
64P3
CO
NN
ECTO
R, A
MP
2 PI
N .1
MC
N41
64P4
CO
NN
ECTO
R, A
MP
2 PI
N .1
MC
N41
64T
1, T
2, T
3, T
4, T
5A
LL T
OR
RO
IDS
AR
E C
UST
OM
WO
UN
DO
NTO
TH
E C
IRC
UIT
BO
AR
D A
ND
MU
ST B
E R
EPLA
CED
AT
THE
FAC
TOR
YO
sc. B
oard
(P
art
nam
e 26
78)
Com
pone
nt N
o.V
alue
Des
crip
tion
Ric
h-M
ar P
art
No.
C1,
C2,
C3,
C4,
C6,
.1U
FD 5
0VC
APA
CIT
OR
, CER
AM
IC B
LOC
KC
A28
09C
7, C
8, C
9C
5.1
UFD
50V
CA
PAC
ITO
R, C
ERA
MIC
BLO
CK
CA
2887
C10
47PF
D 1
50V
CA
PAC
ITO
R, D
IPPE
D M
ICA
CA
2864
C11
.1U
FD 5
0VC
APA
CIT
OR
, CER
AM
IC B
LOC
KC
A28
09C
12.1
UFD
50V
CA
PAC
ITO
R, C
ERA
MIC
DIS
KC
A28
87C
13.0
68U
FD 5
0VC
APA
CIT
OR
, CER
AM
IC D
ISK
CA
2809
CR
1D
IOD
E, 1
N91
4D
I460
2P1
PLU
G, R
IBB
ON
CA
BLE
10P
RT
AN
GLE
CN
4122
R1,
R2
10K
RES
ISTO
R, 1
/2W
5%
RS7
109
R3
100K
RES
ISTO
R, 1
/2W
5%
RS7
117
R4
4.7K
RES
ISTO
R, 1
/2W
5%
RS7
150
R5
10 M
EGR
ESIS
TOR
, 1/2
W 5
%R
S711
1R
64.
7KR
ESIS
TOR
, 1/2
W 5
%R
S715
0R
7, R
810
KR
ESIS
TOR
, 1/2
W 5
%R
S710
9
Ric
h-M
ar M
odel
V/X
Ult
raso
und
Par
ts L
ist,
Con
t.*
DE
NO
TES
PA
RTS
FO
R T
HE
MO
DE
L X
ON
LYO
sc. B
oard
(P
art
nam
e 26
78, C
ont.
)C
ompo
nent
No.
Val
ueD
escr
ipti
onR
ich-
Mar
Par
t N
o.R
P110
KR
ESIS
TOR
PA
K, 1
0 PI
N S
IPR
S718
5S1
SWIT
CH
, BC
K R
IGH
T A
NG
LESW
7805
S2SW
ITC
H, B
CD
RIG
HT
AN
GLE
SW78
05U
145
38IN
TEG
RA
TED
CIR
CU
ITTS
8581
U2
4049
INTE
GR
ATE
D C
IRC
UIT
TS85
29U
340
40IN
TEG
RA
TED
CIR
CU
ITTS
8527
U4
4046
INTE
GR
ATE
D C
IRC
UIT
TS85
28U
540
59IN
TEG
RA
TED
CIR
CU
ITTS
8531
U6
4001
INTE
GR
ATE
D C
IRC
UIT
TS85
20U
740
13IN
TEG
RA
TED
CIR
CU
ITTS
8525
U8
4050
INTE
GR
ATE
D C
IRC
UIT
TS85
30Y
1C
RY
STA
L, 2
048K
CM
S911
0
Pan
el B
oard
(P
art
nam
e 26
45)
Com
pone
nt N
o.V
alue
Des
crip
tion
Ric
h-M
ar P
art
No.
CR
1LE
D, G
REE
NLI
5905
CR
2, C
R3,
CR
4, C
R5,
LED
, AM
BER
LI59
03C
R6,
CR
7, C
R8
J1C
ON
NE
CT
OR
, A
MP
20 P
IN .
1MC
N41
82J2
, J3
CO
NN
EC
TO
R, A
MP
2 PI
N .1
MC
N41
64L
1M
ET
ER
, M
OD
EL
VM
E61
01Q
1T
RA
NSI
STO
R,
MPS
A42
TS8
565
R1
25K
POT
PO65
17R
2, R
3, R
510
KR
ESI
STO
R,
1/2W
5%
RS7
109
R4
20K
RE
SIST
OR
, 1/
2W 5
%R
S710
3R
61K
RE
SIST
OR
, 1/
2W 5
%R
S719
2S
1SW
ITC
H,
RO
TA
RY
S278
07L
1M
ET
ER
XM
E61
02SP
AC
ER
, N
YL
ON
SP07
17
Ric
h-M
ar M
odel
V/X
Ult
raso
und
Par
ts L
ist,
Con
t.*
DE
NO
TES
PA
RTS
FO
R T
HE
MO
DE
L X
ON
LYC
hass
is (
Par
t na
me
0123
and
012
4*)
Ric
h-M
ar P
art
No.
Des
crip
tion
FA48
02FA
NTI
8101
TIM
ER 3
0 M
INU
TEB
D26
48O
PTO
SW
ITC
H B
OA
RD
TF83
02TR
AN
SFO
RM
ER, E
E 99
4* (R
MV
)TF
8302
TRA
NSF
OR
MER
, EE
994*
(RM
V)
KN
5701
KN
OB
PO
INTE
RK
N57
02K
NO
BS
RO
UN
DC
N41
82C
ON
NEC
TOR
, AM
P 20
PIN
(2)
CN
4162
CO
NN
ECTO
R, A
MP
2 PI
N .1
56”
FEM
ALE
CN
4167
CO
NN
ECTO
R, A
MP
4 PI
N .1
” FE
MA
LEJK
5509
CO
MB
O J
AC
KFU
5008
FUSE
1A
MP
SLO
WFU
5001
FUSE
HO
LDER
(SA
ME
AS
HV
2000
)LI
5902
GR
EEN
LED
CO
VER
SLI
5905
GRE
EN L
EDLC
1733
LIN
E C
OR
DJ 5
0304
48R
CA
MA
LE C
ON
NEC
TOR
-SO
LDER
TY
PEM
S911
4ST
RA
IN R
ELIE
F (L
INE
CO
RD
)SH
7415
TRA
NSD
UC
ER, C
4 C
OM
PLET
E* (R
MV
)TR
ND
O21
4TR
AN
SDU
CER
, C5
CO
MPL
ETE*
(RM
X)
CN
4168
CO
NN
ECTO
R, A
MP
4 PI
N .1
56”
FEM
ALE
CH
3734
BLA
CK
FEE
TLI
5903
AM
BER
LED
CO
VER
S
APPENDIX CSCHEMATICS