Midian Electronics SVR-1-KW3 User manual
1
SVR-1-KW3
Simplex Repeater Maker for Kenwood Two-Way Radios
Manual Revision: 015- -17
Covers Firnmware Revisions:
VS-1XXX: 01.62.00 & Higher
Covers Hardware Revisions:
VS-KW3: 7508F & Higher
This manual & product supports the follo ing Ken ood T o-Way radios:
Portables: NX-200, NX-300
Mobiles: NX-700, NX-800
2
HARDWARE SPECIFICATIONS
Operating Voltage 4.75-9.5 VDC
Operating Current
Po er Save Mode (COR Operation) 2.5 mA typical
Po er Save Mode (VOX Operation) 10 mA typical
Repeat Operation 17.5 mA typical
Average /COR Po er Save (80-10-10 cycle) <5 mA
Average /COR Po er Save (90-5-5 cycle) <4 mA
Operating Temperature -30 - +60 C
Frequency Response 300-3000 Hz
Input Impedance >45 kΩ
Input Level (TX) 0.05-2.5 VPP
Input Level (RX) 0.05-2.5 VPP
Audio Output Impedance < 1200 Ohm
INSTALLATION OVERVIEW
1. Test the radio for functionality.
2. Install the unit into the radio per the Hard are Installation Section of this manual.
3. Program the unit per the Product Programming Section of this manual.
4. Program the radio per the Radio Programming Section of this manual.
*** Midian is not responsible for any damage/loss resulting from the use of Midian’s products.
3
GENERAL INFORMATION
Midian’s SVR-1-KW3 is a simplex repeater maker that can be installed into a Ken ood mobile or portable radio.
The SVR-1-KW3 detects COR or VOX from an incoming transmission and records the incoming audio (up to 3
minutes). When the COR or VOX is no longer detected the SVR-1-KW3 keys the radio and retransmits the
recorded audio. The SVR-1-KW3 enables users to create lo -cost vehicular repeaters or expand radio coverage
into poor coverage areas.
4
HARDWARE INSTALLATION
Be certain to follo standard anti-static procedures hen handling any of Midian’s products. Due to the design of
the radio it is necessary to install a PTT ire from the SVR-1-KW3 to the Ken ood radio.
PTT: In order to be able to automatically key the radio it is necessary to install a ire from the point sho n in the
picture belo to a point in the radio as discussed in the installation instructions for the desired model radio belo .
Kenwood NX- 00 & NX-300:
Connect the PTT ire above to the CN702 PTT2 pad sho n belo . Plug the unit into the options connector
(CN710) located behind the options door under the battery.
Kenwood NX-700 & NX-800:
Connect the PTT ire to J901 Pin 5 PTT/TXD as sho belo or to an assignable pin on the DB25 connector.
Plug the unit onto the options connector CN-595.
SVR
-
1
-
KW3 PTT Pad
PTT ire to CN702 PTT2
PTT Wire to J901 Pin 5 PTT/TXD
5
PRODUCT PROGRAMMING
Midian’s SVR-1-KW3 is programmed through the radio using the radio’s programming cable (KPG-36 or KPG-46)
and Midian’s MPS programming soft are. From the product selection screen in the MPS soft are, select the
SVR-1-KW3 from the list and click OK. Note: The radio firm are must be at least 2.00.00.01 and the radio
programming soft are must be KPG-111D version 2.00 or higher.
Set the parameters of the soft are to fit the application. If any clarifications on a feature are required, move the
mouse cursor over the feature name until the question mark appears and right click, a definition of the feature ill
be sho n. Note: On the General settings tab the “Program Through Radio Enable” box must be checked.
After entering the parameters, save the file by going to File - Save As. Enter the file name in the File Name block
and click Save. Saving the file ill allo for quick and easy reprogramming of units.
Important Note: Upon entering through the radio programming mode, the unit needs to be read or programmed
ithin 15 seconds or it ill go into sleep mode.
With the radio programming cable connected (KPG-36 or KPG-46) to the radio, press and hold the > button
(Right/Home button) hile turning po er on to the radio. The radio’s LCD ill display “OPT Board Prog”. Select
ProgramUnit or ReadUnit in the MPS soft are.
6
Store on COR/Store on VOX: Select the appropriate method that the unit should use to start recording incoming
audio.
COR Hold-Up Time This sets the amount of times after a loss of COR or VOX that the unit ill ait until it
retransmits the recorded audio.
VOX Settings > Sensitivity: This is a threshold detection based on the energy level in the audio.
VOX Settings > Attack Time: This sets the minimum time before the unit ill detect VOX based on the sensitivity
setting.
VOX Settings > Decay Time: This sets the time before the unit ill drop the VOX detection. Be certain to set this
long enough so that you do not have drop outs bet een ords or on brief pauses.
Beep Options > Power Up: Enables a short beep sequence that takes place immediately after po er-up.
Beep Options > Error: This beep may be triggered by any input event if programmed to do so. For example, if a
long press on the Mode Input is not assigned to a function, it may be configured to generate the error beep.
Beep Options > Mode: Not used as the radio offers its o n mode tones for the option board enable.
Beep Options > Go Ahead: Not currently used.
Beep Options > Wake Up Beep: Enables a short beep to be sent over the air immediately after PTT is pressed.
Enabling this beep is recommended hen the 'Wake on VOX' feature is used. This may also be used to get the
attention of the party receiving a call.
Beep Options > Courtesy Beep: If selected, once the unit is done retransmitting the recorded audio it ill
generate a courtesy tone to let others kno it is done retransmitting.
Program Through Radio Enable: This box must be checked for programming through the radio.
Voice Compression: If left unchecked the PR-10 can store up to a 3-minute voice message. If checked the PR-
10 can store up to a 2.25 minute voice message, but ith a higher level of audio quality.
7
Power Up In Store/Retransmit Mode: If selected the unit ill po er up in repeat mode. This box must be
selected if doing repeat enable on a per-channel basis.
Key-Up Delay: This sets the amount of time the unit aits after keying the base station radio before it starts to
retransmit the recorded audio.
Trunking Delay Enable: Check this box if using a trunking system. This ill cause the unit to hold off
regenerating the recorded audio until it has received a channel acquisition ackno ledgement from the base
station radio.
Common PTT: Check this box.
PTT Cancels Store/Retransmit: If checked and the PTT is pressed during store/retransmit the unit ill not
retransmit the incoming transmission.
Number of Retransmits: This sets ho many times the unit ill retransmit the last recorded audio clip.
Retransmit Interval: This sets the time interval bet een the retransmits set in the Number of Retransmits field.
8
PTT > Active Polarity: This sets hether the unit looks for an active lo or active high to cancel a
store/retransmit.
PTT > Debounce: If checked the unit ill require a continuous active state for 30 msec before accepting the PTT.
Mode > Type: Select hether the s itch is Momentary or Latched. In this case it should be Latched.
Mode > Active Polarity: Select the active polarity of the mode s itch. In this case it should be Lo .
Mode > Debounce: If checked the unit ill require a continuous active state for 30 msec before accepting the
mode change.
The remaining fields set ho the s itch is used (short press, long press or double press) and for hich function
(record start or stop, playback start or stop, etc.).
9
COR > Active Polarity: This sets hether the unit looks for an active lo or active high to start recording the
received audio. The COR Polarity should be set to lo for these radios.
COR > Debounce: If checked the unit ill require a continuous active state for 30 msec before accepting the
COR.
PTT > Active Polarity: This sets the polarity necessary for the unit’s PTT output to key the radio.
Audio Enable > Active Polarity: This sets the polarity necessary for the unit to enable the speaker of the radio to
pass beeps.
10
AuX Inputs: Not used on this model.
11
Tones > Beep Volume: Adjust the slider for the desired beep volume. This level is expressed as a percentage of
max voice audio level.
Tones > Over-The-Air-Signal Modulation: Adjust the slider for the desired beep volume. This level is expressed
as a percentage of max voice audio level.
Playback > Playback Level: This controls the audio level hen a stored voice message is played back on the
radio speaker. If voice playback is too lo or too loud, adjust this level accordingly.
Playback > Transmit Level: This controls the audio level hen a stored voice message is retransmitted over the
air. If the transmit level is too lo or too loud, adjust this level accordingly.
12
AUDIO LEVELS ALIGNMENT
This section describes ho to determine and set the audio levels.
Audio Levels Overview:
To ensure the best audio quality, the SVR must be configured to match the audio levels used by the radio. The
SVR uses programmable gain amplifiers to accomplish this. Determining the gain settings for these amplifiers is
an involved process, so Midian simplified this process by developing an algorithm that requires the technician to
make only four voltage measurements. From these four measurements, all of the many internal settings are
determined.
Still, getting the best audio quality ill likely require a bit of trial and error. The SVR only has control of audio
voltage levels, not input and output impedances. These impedances can dramatically influence the levels.
The Four Voltage Measurements:
An oscilloscope and a communications test set/service monitor are required for the measurements. It is
recommended that the measurements be recorded in units of mV peak-to-peak. Each measurement must be
taken ith system modulation at either 60% or 100%, but Midian recommends using 60%
A method for controlling transmit modulation is required for accurate measurements in the TX mode. A small
speaker held in place near the microphone by a rubber band can serve this purpose in most cases. Use a sine-
ave generator to inject a 1000 Hz tone into the speaker. Adjust the output of the sine ave generator so that the
transmitter produces 60% of rated modulation hile PTT is pressed. Note that if the audio source (such as a
speaker) is moved even slightly, the TX modulation may change significantly. Care must be taken to avoid
changing the TX modulation hile taking the measurements.
The first t o measurements must be taken using a radio that has not been modified. The 2
nd
t o measurements
require that the SVR is installed and po er is applied to the radio/SVR. These measurements must be taken
ithin 15 seconds of po ering the SVR on. This is because the SVR may enter po er saving mode after that
time. Measurements made hile the SVR is in po er saving mode ill not be valid. The unit ships ith the po er
save feature enabled by default. The po er save feature can be disabled via the KL-3 programming soft are so
that it ill not interfere ith taking measurements, if desired. Please note that the levels provided to the option
board are different bet een narro band and ide band.
1. TX Input: The goal of this procedure is to determine the audio level that the unit ill see at the TX audio
pickup point after it is installed. The unit must be installed and po ered-on hile making this measurement.
Use the TX Alignment Set-Up procedure and measure the audio level at TP1 on the unit.
2. RX Input: The goal of this procedure is to determine the audio level that the unit ill see at the RX audio
pickup point after it is installed. The unit must be installed and po ered-on hile making this measurement.
Use the TX Alignment Set-Up procedure and measure the audio level at TP2 on the unit.
3. In the programming soft are under audio levels set the TX In to the same level as measured in step 1 and for
a preliminary adjustment set the TX Out for the same level. Set the RX In to the same level as measured in
step 2 and for a preliminary adjustment set the RX Out for the same level. Program the unit.
4. RX Output: The goal of this procedure is to determine the audio level that ould normally appear at the RX
audio insertion point in an unmodified radio. Using the same RX Alignment Set-Up procedure verify the audio
level at the speaker is still at the same level measured initially in the RX Alignment Set-Up procedure. If not
adjust the RX Out level accordingly.
5. TX Output: The goal of this procedure is to determine the audio level that ould normally appear at the TX
audio insertion point in an unmodified radio. Using the same TX Alignment Set-Up procedure verify the
modulation is still at 60%, if not adjust the TX Out level accordingly.
13
Programming the Audio Levels:
After determining the audio levels at the audio hookup points, it ill be necessary to program the SVR to match
these levels. In the programming soft are, there is a slider control on the Audio Levels Screen for each of the of
four audio hookup points. Locate the column that corresponds to the modulation and units of measurement for
each of the audio hookup points. Adjust the slider bar such that the value appearing in the appropriate column
matches hat as measured as closely as possible. Midian recommends the follo ing values based on 60%
modulation:
Kenwood
Radio
Model
RX In
TX In
RX Out
TX Out
NX-200, NX-300 666 252 630 246
NX-700, NX-800 678 126 678 132
14
RADIO PROGRAMMING
Kenwood NX- 00 NX-300:
Note: The radio firm are must be at least 2.00.00.01 and the radio programming soft are must be KPG-111D
version 2.00 or higher.
Under the “Edit” menu select “Extended Function” and set “Optional Board” as “Voice Scrambler”. OPT11 should
be set as COR or TOR and Echo PTT should not be checked. To program the unit through the radio the Optional
Board Programming must also be checked.
When using a button to turn the repeater on and off program the desired button to “Scrambler/Encryption”.
If repeating on a per channel basis is desired or a combination of button and per channel control, then click on the
“Channel Edit” button on the “Zone Information” screen. Under “Scrambler Setting” enable the “Voice Scrambler”.
For repeat on a per channel basis, this ill need to be done for each channel here repeat is desired. If the box
is checked, the radio ill po er up in repeat mode & hen that channel is selected. When per channel repeat is
used, it is still possible to toggle in and out of repeat mode.
15
Kenwood NX-700 NX-800:
Note: The radio firm are must be at least 2.00.00.01 and the radio programming soft are must be KPG-111D
version 2.00 or higher.
Under the “Edit” menu select “Extended Function” and set “Optional Board” as “Voice Scrambler”. OPT11 should
be set as COR or TOR and Echo PTT should not be checked. To program the unit through the radio the Optional
Board Programming must also be checked.
When using a button to turn the repeater on and off program the desired button to “Scrambler/Encryption”.
If repeating on a per channel basis is desired or a combination of button and per channel control, then click on the
“Channel Edit” button on the “Zone Information” screen. Under “Scrambler Setting” enable the “Voice Scrambler”.
For repeat on a per channel basis, this ill need to be done for each channel here repeat is desired. If the box
is checked, the radio ill po er up in repeat mode & hen that channel is selected. When per channel repeat is
used, it is still possible to toggle in and out of repeat mode.
16
OPERATION
SVR Operation:
Repeater Enable/Disable: Press the radio key that as assigned in the radio programming. A tone ill be
emitted from the radio and the ◊ symbol ill appear on the display of the radio indicating repeat mode. If repeat
on a per channel basis is being used, then s itching bet een an enabled or non-enabled channel causes the ◊
symbol to appear or disappear.
TECHNICAL NOTES
Radio Compatibility: Midian has taken the utmost care to ensure the option board integrates into the radio ith
minimal impact to the features of the radio. Ho ever, some features may not be available in the radio hen an
option board is used. If a feature is not available, please contact Midian to see if the feature can be added.
MIDIAN CONTACT INFORMATION
MIDIAN ELECTRONICS, INC.
2302 East 22nd Street
Tucson, Arizona 85713 USA
Toll-Free: 1-800-MIDIANS
Main: 520-884-7981
E-mail:
HU
sales@midians.com
U
Web:
HU
.midians.com
U
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1
1
2
2
3
3
4
4
5
5
6
6
D D
C C
B B
A A
1.2M
R42
CODE 2
P1:25
TP5
TP18
0R
R53
100K
R15
47K
R39
0R
R44
-
+
2
3
1
U7:1
560p
C2
N/C
P1:9
TP7
TP17
P4:1
3
1
2
4
5
6
U5
100p
C14
P3:2
KW3 PTT OUT
P1:19
560p
C11
AUDIO ENA
P1:17
100p
C39
.1u
C30
0R
L1
4.7K
R30
.1u
C48
EMER IN
PAD1
PROG OUT
PAD4
PROG IN
PAD3
.01u
C21
2.2u
C20
*
R45
.1u
C41
TP4
.1u
C34
75K
R19
39p
C44 TXI
P1:24
COR IN
PAD2
N/C
P1:11
560p
C37
1.2M
R20
+5V
P1:14
.1uC13
.1u
C29
47K
R41
AUDIO ENH
PAD6
2.2u
C26
16
13
42
11
9
4
3
37
8
47
28
24
27
20
18
36
43
46
48
45
41
644
1
2
38
40
39
34
21
22
7
35
17
19
29
25
23
26
12
10
5
15
14
33
32
30
31
49
U1
TP9
MODE IN
P1:20
.1u
C42
.1u
C22
P4:6
10u
C36
.1u
C46
27K
R13
.01u
C9
560p
C19
0R
R52
47K
R31
560p
C4
47K
R3
47K
R6
NTA4001
Q7
8.2K
R16
10K1%
R11
GND
P1:10
.1u
C10
CODE 0
P1:1
47K
R1
.0068u
C15
16
15
33
35
36
37
38
3
11
12
20
46
21
2
39
40
41
42
32
31
13
10
45
17
43
30
29
26
27
28
5
14
34
44
1
4
6
7
8
9
18
19
22
23
24
25
47
48
U3
*
R17
CODE 3
P1:8
10K
R9
N/C
P1:7
1K
R32
.1u
C12
P4:2
*
R47
560p
C43
47K
R38
.1u
C3
.1u
C23
.1u
C31
10u
C32
.1u
C7
.1u
C25
10K1%
R12
N/C
P1:5
N/C
P1:12
0R
R48
CODE 1
P1:2
7
4
8
2 5
1
6
3
U4
100K
R40
*
R54
P3:5
12p
C38
TP11
2.2u
C27
P4:3
0R
R55
P4:4
36K
R21
560p
C1
56K
R18
TXO
P1:21
1K
R33
1K
R26
.1u
C28
SIDE TONE
P1:15
P4:5
-
+
13
12
14
411
U7:4
KW1 PROG IN
P1:3
P3:3
N/C
P1:16
47K
R2
KW3 COR IN
P1:18
-
+
6
5
7
U7:2
220p
C24
.1u
C33
100K
R14
-
+
9
10
8
U7:3
NTA4001
Q6
*
C17
.0068u
C16
32.768KHz
Y1
TRUNK DELAY
PAD7
RXEO P1:22
P3:4
2R
R49
2R
R50
2R
R51
10K
R10
TP6
47K
R4
RXEI
P1:23
.001u
C18
GND
P1:13
47K
R7
100K
R37
4.7K
R8
10u
C35
TP13
1K
R25
TP8
NTA4001
Q4
TP10
VIN+
P1:26
P3:1
TP2
KW1 PTT OUT
P1:6
PTT IN
P1:4
TP1
.01u
C45
TP3
*
R43
+VIN
+3.3VDD
+3.3VDD
+3.3VA
+3.3V
VAN
VAN
VAN
VAN
+3.3V
+3.3V
+3.3V
+3.3V +3.3V
+3.3V
+3.3V
+3.3V
+3.3VDD
+3.3VA
+3.3V
+3.3V
+3.3V
+3.3V
+3.3V
VAN
+VIN
+3.3V
+3.3V
+3.3V
A_ROUTE
B_ROUTE
(SOURCE)
NOTES:
* = NOT INSTALLED
KW3 PTT IN
KW3 PTT IN
KW3 PROG IN
KW3 PROG IN
A_ROUTE
B_ROUTE
+
10u
C5
.01u
C47
3.3K
R24
3.3K
R28
2.2u
C40
TRUNKING_DELAY
TRUNKING_DELAY
0R
R57
560p
C49
CS
7SO
12 SI
13 SCK
14
DVDD 1
INT2
9INT1
8
GND 2
*
AVDD 6
GND 5
IADDR0 4
N/C 3
GND 10
GND 11
U10
.1u
C6
+3.3V
+3.3V
CS
1
SO
2
SI
5
SCK
6
VCC 8
HOLD 7
WP 3
GND 4
26DF081A
U6
47K
R64
SB1
D1
SB1
D7
SB1
D8
SB1
D4
SB1
D5
SB1
D6
SB1
D2
SB1
D9
SB1
D10
SB1
D11
47K
R59
47K
R58
*
R35
B_ROUTE
CP
CJS
2007-12-16 DML
2013-01-21
D-1
1 of 1 7508
MIDIAN ELECTRONICS, INC.
DATE:
DESIGN:
DWN BY:
REV:
APPR
COPYRIGHT ©
REV
SHEET PROJECT NUMBER
DOCUMENT NAME
SCHEMATIC
2013
SVR-1-KW3/VM-3-KW3
IN SYSTEM
SERIAL PROGR.
5206
IN1
1
ENA
3
GND
2RES 4
OUT 5
VR1
*
IN1
1
ENA
3
GND
2RES 4
OUT 5
VR2
*
IN1
1
ENA
3
GND
2RES 4
OUT 5
VR3
PIC101
PIC102
COC1
PIC201
PIC202
COC2
PIC301 PIC302
COC3
PIC401
PIC402
COC4
PIC501
PIC502
COC5
PIC601
PIC602
COC6
PIC701
PIC702
COC7
PIC901 PIC902
COC9
PIC1001
PIC1002
COC10
PIC1101 PIC1102
COC11
PIC1201 PIC1202
COC12
PIC1301 PIC1302
COC13
PIC1401
PIC1402
COC14
PIC1501 PIC1502
COC15
PIC1601 PIC1602
COC16
PIC1701 PIC1702
COC17
PIC1801
PIC1802
COC18
PIC1901
PIC1902
COC19
PIC2001
PIC2002
COC20
PIC2101 PIC2102
COC21
PIC2201 PIC2202
COC22
PIC2301 PIC2302
COC23
PIC2401
PIC2402
COC24
PIC2501 PIC2502
COC25
PIC2601
PIC2602
COC26
PIC2701
PIC2702
COC27
PIC2801 PIC2802
COC28
PIC2901 PIC2902
COC29
PIC3001 PIC3002
COC30
PIC3101
PIC3102
COC31
PIC3201
PIC3202
COC32
PIC3301 PIC3302
COC33
PIC3401 PIC3402
COC34
PIC3501 PIC3502
COC35
PIC3601 PIC3602
COC36
PIC3701
PIC3702
COC37
PIC3801
PIC3802
COC38
PIC3901
PIC3902
COC39
PIC4001 PIC4002
COC40
PIC4101 PIC4102
COC41
PIC4201 PIC4202
COC42
PIC4301
PIC4302
COC43
PIC4401
PIC4402
COC44
PIC4501
PIC4502
COC45
PIC4601PIC4602
COC46
PIC4701 PIC4702
COC47
PIC4801 PIC4802
COC48
PIC4901
PIC4902
COC49
PID101PID102
COD1
PID201PID202
COD2
PID401PID402
COD4
PID501PID502
COD5
PID601
PID602
COD6
PID701PID702
COD7
PID801PID802
COD8
PID901 PID902
COD9
PID1001PID1002
COD10
PID1101PID1102
COD11
PIL101
PIL102
COL1
PIP101
COP1:1
PIP102
COP1:2
PIP103
COP1:3
PIP104
COP1:4
PIP105
COP1:5
PIP106
COP1:6
PIP107
COP1:7
PIP108
COP1:8
PIP109
COP1:9
PIP1010
COP1:10
PIP1011
COP1:11
PIP1012
COP1:12
PIP1013
COP1:13
PIP1014
COP1:14
PIP1015
COP1:15
PIP1016
COP1:16
PIP1017
COP1:17
PIP1018
COP1:18
PIP1019
COP1:19
PIP1020
COP1:20
PIP1021
COP1:21
PIP1022
COP1:22
PIP1023
COP1:23
PIP1024
COP1:24
PIP1025
COP1:25
PIP1026
COP1:26
PIP301
COP3:1
PIP302
COP3:2
PIP303
COP3:3
PIP304
COP3:4
PIP305
COP3:5
PIP401
COP4:1
PIP402
COP4:2
PIP403
COP4:3
PIP404
COP4:4
PIP405
COP4:5
PIP406
COP4:6
PIPAD101
COPAD1
PIPAD201
COPAD2
PIPAD301
COPAD3
PIPAD401
COPAD4
PIPAD601
COPAD6
PIPAD701
COPAD7
PIQ40D
PIQ40G
PIQ40S
COQ4
PIQ60D
PIQ60G
PIQ60S
COQ6
PIQ70D
PIQ70G
PIQ70S
COQ7
PIR101 PIR102
COR1
PIR201 PIR202
COR2
PIR301 PIR302
COR3
PIR401 PIR402
COR4
PIR601 PIR602
COR6
PIR701 PIR702
COR7
PIR801 PIR802
COR8
PIR901
PIR902
COR9
PIR1001 PIR1002
COR10
PIR1101
PIR1102
COR11
PIR1201
PIR1202
COR12
PIR1301
PIR1302
COR13
PIR1401
PIR1402
COR14
PIR1501
PIR1502
COR15
PIR1601
PIR1602
COR16
PIR1701 PIR1702
COR17
PIR1801 PIR1802
COR18
PIR1901 PIR1902
COR19
PIR2001 PIR2002
COR20
PIR2101 PIR2102
COR21
PIR2401 PIR2402
COR24
PIR2501 PIR2502
COR25
PIR2601 PIR2602
COR26
PIR2801 PIR2802
COR28
PIR3001
PIR3002
COR30
PIR3101
PIR3102
COR31
PIR3201 PIR3202
COR32
PIR3301 PIR3302
COR33
PIR3501 PIR3502
COR35
PIR3701 PIR3702
COR37
PIR3801
PIR3802
COR38
PIR3901
PIR3902
COR39
PIR4001 PIR4002
COR40
PIR4101
PIR4102
COR41
PIR4201
PIR4202
COR42
PIR4301 PIR4302
COR43
PIR4401 PIR4402
COR44
PIR4501 PIR4502
COR45
PIR4701 PIR4702
COR47
PIR4801 PIR4802
COR48
PIR4901 PIR4902
COR49
PIR5001 PIR5002
COR50
PIR5101 PIR5102
COR51
PIR5201
PIR5202
COR52
PIR5301 PIR5302
COR53
PIR5401 PIR5402
COR54
PIR5501PIR5502
COR55
PIR5701
PIR5702
COR57
PIR5801
PIR5802
COR58
PIR5901
PIR5902
COR59
PIR6401
PIR6402
COR64
COtb0sch1
PITP101
COTP1
PITP201
COTP2
PITP301
COTP3
PITP401
COTP4
PITP501
COTP5
PITP601
COTP6
PITP701
COTP7
PITP801
COTP8
PITP901
COTP9
PITP1001
COTP10
PITP1101
COTP11
PITP1301
COTP13
PITP1701
COTP17
PITP1801
COTP18
PIU101 PIU102
PIU103
PIU104
PIU105
PIU106
PIU107
PIU108
PIU109
PIU1010
PIU1011
PIU1012
PIU1013
PIU1014
PIU1015
PIU1016
PIU1017
PIU1018
PIU1019
PIU1020
PIU1021
PIU1022
PIU1023
PIU1024
PIU1025
PIU1026
PIU1027
PIU1028
PIU1029
PIU1030
PIU1031
PIU1032
PIU1033
PIU1034
PIU1035
PIU1036
PIU1037
PIU1038
PIU1039PIU1040
PIU1041
PIU1042
PIU1043
PIU1044
PIU1045
PIU1046
PIU1047
PIU1048
PIU1049
COU1
PIU301
PIU302
PIU303
PIU304
PIU305
PIU306
PIU307
PIU308
PIU309
PIU3010
PIU3011
PIU3012
PIU3013
PIU3014
PIU3015
PIU3016
PIU3017PIU3018
PIU3019
PIU3020
PIU3021
PIU3022
PIU3023
PIU3024
PIU3025
PIU3026
PIU3027
PIU3028
PIU3029
PIU3030
PIU3031PIU3032
PIU3033 PIU3034
PIU3035
PIU3036
PIU3037
PIU3038
PIU3039
PIU3040
PIU3041
PIU3042
PIU3043
PIU3044
PIU3045
PIU3046
PIU3047
PIU3048
COU3
PIU401
PIU402
PIU403
PIU404
PIU405
PIU406
PIU407PIU408
COU4
PIU501
PIU502
PIU503
PIU504
PIU505 PIU506
COU5
PIU601
PIU602
PIU603
PIU604
PIU605
PIU606
PIU607
PIU608
COU6
PIU701
PIU702
PIU703
COU7:1
PIU705
PIU706
PIU707
COU7:2
PIU708
PIU709
PIU7010
COU7:3
PIU704
PIU7011
PIU7012
PIU7013
PIU7014
COU7:4
PIU1001
PIU1002
PIU1003
PIU1004
PIU1005
PIU1006
PIU1007
PIU1008
PIU1009
PIU10010
PIU10011
PIU10012
PIU10013
PIU10014
COU10
PIVR101
PIVR102
PIVR103
PIVR104
PIVR105
COVR1
PIVR201
PIVR202
PIVR203
PIVR204
PIVR205
COVR2
PIVR301
PIVR302
PIVR303
PIVR304
PIVR305
COVR3
PIY101
PIY102
COY1
PAC201
PAC202
COC2
PAC301PAC302
COC3
PAC901
PAC902
COC9
PAC1301 PAC1302
COC13
PAC1801
PAC1802
COC18
PAC1901 PAC1902
COC19
PAC2001 PAC2002
COC20
PAC2101PAC2102
COC21
PAC2201
PAC2202
COC22
PAC2301
PAC2302
COC23
PAC2401
PAC2402
COC24
PAC2501
PAC2502
COC25
PAC2601 PAC2602
COC26
PAC2701 PAC2702
COC27
PAC2801 PAC2802
COC28
PAC2901 PAC2902
COC29
PAC3001 PAC3002
COC30
PAC3101
PAC3102
COC31
PAC3201
PAC3202
COC32
PAC3301PAC3302
COC33
PAC3401PAC3402
COC34
PAC3501PAC3502
COC35
PAC3601
PAC3602
COC36
PAC3701
PAC3702
COC37
PAC3801
PAC3802
COC38
PAC3901
PAC3902
COC39
PAC4201PAC4202
COC42
PAC4301
PAC4302
COC43
PAC4401
PAC4402
COC44
PAC4501
PAC4502
COC45
PAC4601 PAC4602
COC46
PAC4801
PAC4802
COC48
PAC4902
PAC4901
COC49
PAD402PAD401
COD4
PAD501 PAD502
COD5
PAD602
PAD601
COD6
PAD801 PAD802
COD8
PAD1001
PAD1002
COD10
PAD1101PAD1102
COD11
PAL101
PAL102
COL1
PAP301
PAP302
PAP305
PAP303
PAP306
PAP304
COP3
PAP401PAP402PAP405 PAP403PAP406 PAP404
COP4
PAPAD101
COPAD1
PAPAD201
COPAD2
PAPAD301
COPAD3
PAPAD401
COPAD4
PAPAD601
COPAD6
PAPAD701
COPAD7
PAQ40S
PAQ40D
PAQ40G
COQ4
PAQ60S
PAQ60D
PAQ60G
COQ6
PAQ70S PAQ70D
PAQ70G
COQ7
PAR101
PAR102
COR1
PAR201
PAR202
COR2
PAR301
PAR302
COR3
PAR401 PAR402
COR4
PAR601PAR602
COR6
PAR701
PAR702
COR7
PAR801PAR802
COR8
PAR1701
PAR1702
COR17
PAR2401
PAR2402
COR24
PAR2501
PAR2502
COR25
PAR2601
PAR2602
COR26
PAR2801
PAR2802
COR28
PAR3101
PAR3102
COR31
PAR3201PAR3202
COR32
PAR3301PAR3302
COR33
PAR3501 PAR3502
COR35
PAR3701PAR3702
COR37
PAR3801
PAR3802
COR38
PAR3901
PAR3902
COR39
PAR4001
PAR4002
COR40
PAR4201
PAR4202
COR42
PAR4401
PAR4402
COR44
PAR4501
PAR4502
COR45
PAR4701
PAR4702
COR47
PAR4901
PAR4902
COR49
PAR5001
PAR5002
COR50
PAR5101PAR5102
COR51
PAR5201
PAR5202
COR52
PAR5301
PAR5302
COR53
PAR5802
PAR5801
COR58
PAR5902
PAR5901
COR59
COtb0sch1
PATP101
COTP1
PATP201
COTP2
PATP301
COTP3
PATP401
COTP4
PATP501
COTP5
PATP601
COTP6
PATP701
COTP7
PATP801
COTP8
PATP901
COTP9
PATP1001
COTP10
PATP1101
COTP11
PATP1301
COTP13
PATP1701
COTP17
PATP1801
COTP18
PAU101
PAU102
PAU103
PAU104
PAU105
PAU106
PAU107
PAU108
PAU109
PAU1010
PAU1011
PAU1012
PAU1013 PAU1014
PAU1015
PAU1016 PAU1017 PAU1018 PAU1019
PAU1020
PAU1021
PAU1022
PAU1023
PAU1024
PAU1025
PAU1026
PAU1027
PAU1028
PAU1029
PAU1030
PAU1031 PAU1032 PAU1033
PAU1034 PAU1035
PAU1036
PAU1037
PAU1038
PAU1039
PAU1040
PAU1041
PAU1042
PAU1043
PAU1044
PAU1045
PAU1046
PAU1047
PAU1048
PAU1049
PAU10TH1
PAU10TH2
PAU10TH3
PAU10TH6
PAU10TH7
PAU10TH8
PAU10TH9
PAU10TH11
PAU10TH12
PAU10TH13
PAU10TH14
PAU10TH15
PAU10TH16
PAU10TH17
PAU10TH18
PAU10TH19
PAU10TH20
PAU10TH21
PAU10TH22
PAU10TH23
PAU10TH24
PAU10TH25
COU1
PAU401
PAU402
PAU403
PAU404
PAU405
PAU406
PAU407
PAU408
COU4
PAU501
PAU502
PAU503
PAU504
PAU505
PAU506
COU5
PAvariant102
PAvariant101
PAvariant104
PAvariant106
PAvariant103
PAvariant105
PAvariant1049
PAvariant1048
PAvariant1047
PAvariant1046
PAvariant1045
PAvariant1044 PAvariant1043
PAvariant1042
PAvariant1041
PAvariant1040
PAvariant1039
PAvariant1038
PAvariant1037
PAvariant1036
PAvariant1035
PAvariant1034
PAvariant1033
PAvariant1032
PAvariant1031
PAvariant1030
PAvariant1029
PAvariant1028
PAvariant1027
PAvariant1026
PAvariant1025
PAvariant1024
PAvariant1023
PAvariant1022
PAvariant1021
PAvariant1020
PAvariant1019
PAvariant1018
PAvariant1017
PAvariant1016
PAvariant1015
PAvariant1014
PAvariant1013
PAvariant1012
PAvariant1011
PAvariant1010
PAvariant109
PAvariant108
PAvariant107
PAvariant10TH25
PAvariant10TH24
PAvariant10TH23
PAvariant10TH22
PAvariant10TH21
PAvariant10TH20
PAvariant10TH19
PAvariant10TH18 PAvariant10TH17
PAvariant10TH16
PAvariant10TH15
PAvariant10TH14 PAvariant10TH13 PAvariant10TH12 PAvariant10TH11
PAvariant10TH9 PAvariant10TH8 PAvariant10TH7
PAvariant10TH6
PAvariant10TH3
PAvariant10TH2
PAvariant10TH1
PAvariant10G
PAvariant10D
PAvariant10S
PAvariant10BR
PAvariant10BL
COvariant1
PAVR103 PAVR101
PAVR104
PAVR102
PAVR105
COVR1
PAVR203PAVR201
PAVR204
PAVR202
PAVR205
COVR2
PAVR303PAVR301
PAVR304
PAVR302
PAVR305
COVR3
PAC101
PAC102
COC1
PAC401PAC402
COC4
PAC502
PAC501
COC5
PAC602
PAC601
COC6
PAC701
PAC702
COC7
PAC1001
PAC1002
COC10
PAC1101
PAC1102
COC11
PAC1201PAC1202
COC12
PAC1401
PAC1402
COC14
PAC1501
PAC1502
COC15
PAC1601
PAC1602
COC16
PAC1701
PAC1702
COC17
PAC4001
PAC4002
COC40
PAC4101 PAC4102
COC41
PAC4701
PAC4702
COC47
PAD102
PAD101
COD1
PAD201
PAD202
COD2
PAD701
PAD702
COD7
PAD902
PAD901
COD9
PAP101PAP102
PAP103PAP104
PAP105PAP106
PAP107PAP108
PAP109
PAP1010
PAP1011PAP1012
PAP1013PAP1014
PAP1015PAP1016
PAP1017PAP1018
PAP1019PAP1020
PAP1021PAP1022
PAP1023PAP1024
PAP1025PAP1026
PAP10BL
PAP10BR
COP1
PAR901 PAR902
COR9
PAR1001
PAR1002
COR10
PAR1101
PAR1102
COR11
PAR1201 PAR1202
COR12
PAR1301
PAR1302
COR13
PAR1401
PAR1402
COR14
PAR1501 PAR1502
COR15
PAR1601
PAR1602
COR16
PAR1801
PAR1802
COR18
PAR1901
PAR1902
COR19
PAR2001
PAR2002
COR20
PAR2101
PAR2102
COR21
PAR3001
PAR3002
COR30
PAR4101 PAR4102
COR41
PAR4301
PAR4302
COR43
PAR4801
PAR4802
COR48
PAR5401
PAR5402
COR54
PAR5502 PAR5501
COR55
PAR5702 PAR5701
COR57
PAR6402
PAR6401
COR64
COtb0sch2
PAU301PAU302
PAU303
PAU304PAU305PAU306PAU307PAU308PAU309
PAU3010PAU3011PAU3012
PAU3013 PAU3014 PAU3015 PAU3016
PAU3017
PAU3018 PAU3019 PAU3020 PAU3021 PAU3022 PAU3023 PAU3024
PAU3025PAU3026PAU3027PAU3028PAU3029PAU3030
PAU3031
PAU3032
PAU3033
PAU3034PAU3035
PAU3036
PAU3037PAU3038PAU3039
PAU3040
PAU3041
PAU3042
PAU3043PAU3044PAU3045PAU3046PAU3047PAU3048
COU3
PAU601 PAU602 PAU603
PAU604
PAU605
PAU606PAU607PAU608
COU6
PAU701
PAU702PAU703
PAU704
PAU705PAU706PAU707
PAU708 PAU709
PAU7010
PAU7011
PAU7012 PAU7013
PAU7014
COU7
PAU10014
PAU10013
PAU10012 PAU10011 PAU10010
PAU1009
PAU1008
PAU1007
PAU1006
PAU1005
PAU1004PAU1003PAU1002
PAU1001
COU10
PAvariant201
PAvariant202 PAvariant203 PAvariant204
PAvariant205
PAvariant206
PAvariant207
PAvariant208
PAvariant209
PAvariant2010PAvariant2011PAvariant2012
PAvariant2013
PAvariant2014
PAvariant20TH25
PAvariant20TH24PAvariant20TH23
PAvariant20TH22
PAvariant20TH21
PAvariant20TH20PAvariant20TH19
PAvariant20TH18PAvariant20TH17
PAvariant20TH16
PAvariant20TH15
PAvariant20TH14PAvariant20TH13PAvariant20TH12PAvariant20TH11
PAvariant20TH9PAvariant20TH8PAvariant20TH7PAvariant20TH6
PAvariant20TH3PAvariant20TH2
PAvariant20TH1
PAvariant2048 PAvariant2047 PAvariant2046 PAvariant2045
PAvariant2044
PAvariant2043
PAvariant2042
PAvariant2041
PAvariant2040
PAvariant2039 PAvariant2038 PAvariant2037
PAvariant2036
PAvariant2035
PAvariant2034
PAvariant2033
PAvariant2032
PAvariant2031
PAvariant2030
PAvariant2029
PAvariant2028
PAvariant2027
PAvariant2026
PAvariant2025
PAvariant2024PAvariant2023PAvariant2022PAvariant2021PAvariant2020PAvariant2019PAvariant2018PAvariant2017PAvariant2016PAvariant2015
PAvariant20BR
PAvariant20BL
COvariant2
PAY101
PAY102
COY1
Table of contents
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