1

TS-120-IC2

Multi-Format ANI Encoder

Manual Revision: 2013-03-29

Covers Software Revisions: VS-1XXX: 01.55.00 & Higher

Covers Hardware Revisions: VS-IC2: 7711C & Higher

This manual & product supports the following Icom radios:

Portables: F-3021, F-3023, F-4021, F-4023

Mobiles: F-5021, F-5023, F-6021, F-6023

2

HARDWARE SPECIFICATIONS Operating Voltage 4.75-9.5 VDC Operating Current Power Save Mode (COR Operation) 2.5 mA typical Power Save Mode (VOX Operation) 10 mA typical Repeat Operation 17.5 mA typical Average w/COR Power Save (80-10-10 cycle) <5 mA Average w/COR Power Save (90-5-5 cycle) <4 mA Operating Temperature -30 - +60 C Frequency Response 300-3000 Hz Input Impedance >45 k 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. Program the unit per the Product Programming Section of this manual. 3. Install the unit into the radio per the Hardware Installation 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 TS-120 Series products encode ANI and Emergency ANI to display on ANI display decoder to identify which field unit is being keyed. The following is a list of benefits provided by ANI systems: Allows dispatchers to know who he or she is talking to. Identify system abusers. Identify emergency conditions. Assign calls fairly. The TS-120 offers ANI & Emergency ANI in Motorola’s MDC-1200, Kenwood’s FleetSync, Harris’ G-Star (aka GE-Star), DTMF and 5-tone. The TS-120 can be used with Midian’s ADD, CAD, DDU and TRC Series products for monitoring ANI and ENI transmissions. The TS-120 also offers a Lone Worker feature for man-down applications. If the unit does not receive any user interaction (PTT or Lone Worker Reset button) for a programmable period of time the unit can key the radio and send the Emergency ANI. The on-board accelerometer can be used to reset the Lone Worker timer or if there is no motion the unit can send the Emergency ANI.

4

PRODUCT PROGRAMMING Midian’s TS-120-IC2 is programmed via Midian’s KL-4 programming cable and programming software. Please reference the KL-4 manual for setup instructions of the programming software and the KL-4 hardware. From the product selection screen in the programming software, select the TS-120-IC2 from the list and click OK. Set the parameters of the software 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 will be shown. 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 will allow for quick and easy reprogramming of units. Programming: Plug the board onto the IC2 connector on the KL-4. Push the power button on the KL-4 and click “Program Unit” in the programming software. The ACK LED on the KL-4 will faintly flash if programmed successfully. Reading: Plug the board onto the IC2 connector on the KL-4. Push the power button on the KL-4 and click “Read Unit” in the programming software. Note: Upon power up the scrambler will be awake for 15 seconds before going into Power Save mode. After programming or reading the TS-120-IC2 turn off the scrambler for 3 seconds and then turn back on.

5

Wake on COR/Wake on VOX: Select the appropriate method for busy detection and to come out of power save. COR Hold-Up Time: This is a drop out time for the unit to go back to sleep. 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 will detect VOX based on the sensitivity setting. VOX Settings > Decay Time: This sets the time before the unit will drop the VOX detection. Be certain to set this long enough so that you do not have drop outs between words or on brief pauses. Beep Options > Power Up: Enables a short beep sequence that takes place immediately after power-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 currently used. Beep Options > Go Ahead: If selected, the unit will emit a short beep to let the user know the leading ANI has been transmitted and it is okay to talk. 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 when 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 transmitting it will generate a courtesy tone to let others know it is done transmitting. Beep Options > Enable Side Tone Pin: Future Use.

6

Common PTT: If PTT in and out are connected to the same point, check this box. Trunking Delay Enable: Check this box if using a trunking system. This will cause the unit to hold off transmitting the ANI until it has received a channel acquisition acknowledgement from the radio. Key-Up Delay: This sets the amount of time the unit waits after keying the radio before it transmitting the ANI.

7

Protocol Format: Select the desired signaling format in which the ANI and ENI will be transmitted. ANI Position: This can be set for the beginning of transmission (leading), end of transmission (trailing) or both. Tone Duration: This field only applies to DTMF and 5-Tone formats and sets the length of each tone. Tone Gap Duration: This field only applies to DTMF and sets the length of the gap between tones. Fleet ID: This field only applies to FleetSync and sets the Fleet ID of the unit. Unit ID: This sets the ANI of the unit. Message: This field only applies to G-Star. Status: This field only applies to G-Star. Repeat Delay: This sets the time after sending an ANI that the unit will wait before sending another ANI.

8

Protocol Format: This displays the format selected on the ANI tab. Fleet ID: This field only applies to FleetSync and sets the Fleet ID for the ENI. Unit ID: This sets the Emergency ANI of the unit. Message: This field only applies to G-Star. Status: This field only applies to G-Star. Transmit Forever: If selected the ENI will transmit continuously at the repeat interval until canceled. Transmit Count: This sets the number of times the ENI will be sent. Repeat Interval: This sets the time between ENI transmissions. PTT Resets/Cancels ENI: If selected, pressing the PTT button will either reset the Lone Worker’s Transmit Delay time or cancel the transmission of the ENI. Live Mic Enable: If selected the unit will enable the mic of the radio to transmit mic audio to the dispatcher. Revert to Clear: Currently not used. Locator Tone Enable: If selected the unit will emit tones out the radio’s speaker.

9

Transmit Delay: In Lone Worker mode, if the user does not interact with the radio before this amount of time passes, the ENI sequence will be transmitted. This time is in seconds. Warning Tone Enable: This will generate a tone sequence to alert the user the ENI is about to be transmitted. Warning Tone Delay: In Lone Worker mode, if the user does not interact with the radio before this amount of time passes, the emergency warning tone will be sounded. This amount of time must be less than that of the Transmit Delay for the warning tone to be sounded. Also, the Warning Tone Enable box must be checked for the tone to be sounded. For example, based on the screen shown above after 105 seconds of no activity the unit will generate warning tones. The user then has 15 seconds to interact with the radio to keep the Transmit Delay time of 120 seconds expiring and the ENI being transmitted. Continuous Warning Enable: This will generate a constant tone to alert the user the ENI is about to be transmitted. Power-up with Lone Worker on: If checked the unit will be in Lone Worker mode when the radio is turned on. This eliminates the need for the user to use the mode input to turn the Lone Worker mode on. Motion Resets Delay Timers: The unit can use the accelerometer to detect motion based on the Motion Sensitivity setting to determine if the user is in distress in addition to requiring interaction with the radio. Motion Sensitivity: This sets a level of motion required to reset the Transmit Delay timer. Some work environments may have an inherent level of motion that would be detected by lower settings of the accelerometer, so a higher level of sensitivity might be needed. Midian recommends experimenting to determine the best sensitivity setting for the work environment.

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PTT > Active Polarity: This sets whether the unit looks for an active low or active high to send the ANI. PTT > Debounce: If checked the unit will require a continuous active state for 30 msec before accepting the PTT.

Mode > Type: Select whether the switch is Momentary or Latched for Lone Worker on/off and reset. Mode > Active Polarity: Select the active polarity of the mode switch. Mode > Debounce: If checked the unit will require a continuous active state for 30 msec before accepting the mode change. The remaining fields set how the switch is used (short press, long press or double press) and for which function (Lone Worker enable or Lone Worker Reset).

11

COR > Active Polarity: This sets whether the unit looks for an active low or active high to start recording the received audio. COR > Debounce: If checked the unit will 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.

12

Audio Enable > Active Polarity: This sets the polarity necessary for the unit to enable the speaker of the radio to pass beeps.

Emergency > Type: This sets whether the emergency input is connected to a momentary or latched switch. Emergency > Active Polarity: This sets whether the unit looks for an active low or active high to trigger an emergency ANI. Emergency > Debounce: If checked the unit will require a continuous active state for 30 msec before accepting the Emergency input activation. The remaining fields set how the switch is used (Momentary Type: short press, long press or double press) (Latched Type: on function and off function) and for which function (Emergency On, Emergency Cancel, Lone Worker enable or Lone Worker Reset).

13

Trunking Delay Input > Active Polarity: This sets whether the unit needs an active low or active high indication from the radio to indicate a trunked channel has been established.

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.

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AUDIO LEVELS ALIGNMENT

This section describes how to determine and set the audio levels. Audio Levels Overview: To ensure the best audio quality, the unit must be configured to match the audio levels used by the radio. The unit 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 will likely require a bit of trial and error. The unit only has control of audio voltage levels, not input and output impedances. These impedances can dramatically influence the levels. 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 with system modulation at either 60% or 100%, but Midian recommends using 60% 1. A method for controlling transmitter 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-wave generator to inject a 1000 Hz tone into the speaker. Adjust the output of the sine wave generator so that the transmitter produces 60% of rated modulation while 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 while taking the measurements

2. Using a service monitor send a fully quieting signal (-50 dBm) to the receiver with a 1000 Hz tone at 60%

modulation, adjust the volume of the receiver to a comfortable listening level and measure the audio level at the speaker using an AC coupled oscilloscope.

3. Set the radio programming software for an option board and set all parameters to accommodate a scrambler

board then program the radio. 4. Install the unit and power up the radio, using the EXACT set up as in step 1 and while in transmit mode

measure the signal level at TP-1. 5. While in receive mode, and using the EXACT set up as in step 2, measure the signal level at TP-2. 6. In the programming software under audio levels set the TX IN to the same level as measured in step 4, for a

preliminary adjustment set the TX OUT for the same level. Set the RX IN to the same level as measured in step 5 and for a preliminary adjustment set RX OUT for the same level. Program the unit.

7. Using the EXACT set up as in step1 and while in transmit mode verify the modulation is still at 60%, if not

adjust the TX OUT level accordingly. 8. While in receive mode, and using the EXACT set up as in step 2 verify the audio level at the speaker is the

same level that was measured in step 2, if not adjust the RX OUT level accordingly.

Programming the Audio Levels: After determining the audio levels at the audio hookup points, it will be necessary to program the unit to match these levels. In the programming software, 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 what was measured as closely as possible. Midian recommends the following values at 60% modulation:

15

Radio Model RX In TX In RX Out TX Out F-3021, F-3023, F-4021, F-4023 624 42 786 42 F-5021, F-5023, F-6021, F-6023 624 42 786 42

16

HARDWARE INSTALLATION

Be certain to follow standard anti-static procedures when handling any of Midian’s products. F-3021, F-3023, F-4021, F-4023: Before installing the unit, open the radio’s TX path by opening the MIC jumper, open the RX path by opening the DISC jumper, and open the PTT path by opening the PTT jumper. Connect a wire from the CI pad on the scrambler to the junction of R-249 and R-369 in the radio. This provides a busy detect to the scrambler for the power save function. The unit plugs into the options connector located under the options door located behind the battery. F-5021, F-5023, F-6021, F-6023: Before installing the unit, open the radio’s TX path by opening the MIC jumper, open the RX path by opening the DISC jumper, and open the PTT path by opening the PTT jumper. The unit plugs into the options connector located on the main board of the radio. External Emergency ANI: If you are trying to trigger the emergency from an external source rather than the radio button or Lone Worker/Man-Down, add a wire from the junction of R3 and D3 to the external source. The point shown below is the most easily accessible point.

External ENI Connection

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RADIO PROGRAMMING

F-3021, F-3023, F-4021, F-4023: For mode select, program the desired button under Common > Key & Display as OPT1 Momentary/L (Active Low). If using Emergency ANI, under Common > Key & Display set the Emer button as OPT 3 Out/L. Note: The Live Mic function is not available for the VS-1200 and VS-1050 versions for these radios. F-5021, F-5023, F-6021, F-6023: For mode select, program the desired button under Common > Key & Display as OPT1 Momentary/L (Active Low). If using Emergency ANI, under Common > Key & Display set the Emer button as OPT 3 Momentary/L (Active Low).

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OPERATION

ANI Encode: When the PTT button is pressed, the unit will assert the PTT Output and send the programmed ANI tones out the TX Tone Output.

ENI Encode: When the Emergency button is pressed, the unit will assert the PTT Output and send the programmed Emergency ANI tones out the TX Tone Output.

Lone Worker Enable: The Lone Worker feature can be enabled upon power up or using the Mode Input or Emergency Input.

Lone Worker Reset: If the Lone Worker feature is being used, pressing the PTT or pressing the button assigned to Lone Worker Reset will reset the Transmit Delay timer. If the Warning Tone Delay time expires the unit will generate warning tones to indicate to the user that the Lone Worker feature is about to send an ENI if the unit does not see PTT or Lone Worker Reset activity. If the Transmit Delay time then expires the unit will send the ENI.

TECHNICAL NOTES

Radio Compatibility: Midian has taken the utmost care to ensure the option board integrates into the radio with minimal impact to the features of the radio. However, some features may not be available in the radio when 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: sales@midians.com Web: www.midians.com

1

1

2

2

3

3

4

4

5

5

6

6

D D

C C

B B

A A

LTR_INLTR_IN PAD1

COR_INCOR_IN PAD5

N/CP1:1

GND P1-2

PTT IN P1-3PTT_OUTP1-4

TX_OUTP1-5

N/CP1:6

TX_IN P1-7

N/CP1:8

PROG_INP1-9

N/CP1:10

PROG_INP1-11

COR_IN P1-12

N/CP1:13

MODE_IN / PCCMD_TX_DATAP1-14

PCCMD_RX_DATAP1-15

MODE_IN / EMERP1-16

GND P1-17

N/CP1:18

N/CP1:19

N/CP1:20

GND P1-21

PROG_OUTP1-25

N/CP1:28

N/CP1:29

RX_OUTP1-30

RX_IN P1-31

COR_IN P1-32

HORNP1-33

AUDIO_ENABLEP1-34

N/CP1:35

PROG_OUTP1-36

N/CP1:37

+VIN P1-38

GND P1-39

N/CP1:40

VAN

VAN

VAN

VAN

VAN

IN SYSTEMSERIAL PROGR.

(SOURCE)

NOTES:

+3.3V

+3.3V

+3.3V

+3.3V

+3.3VA

+3.3VDD

+5V

+3.3V

+3.3V

+3.3V

+3.3V

+3.3V

+3.3V

+3.3VDD

+3.3V+3.3V+3.3V

+3.3V

+3.3VDD

*R7

*R9

*R13

*R14

47KR16 +5V

47KR22 +5V

+5V

10KR28

10KR29

SB1D1

SB1D2

SB1D4

SB1D5

47KR6

47KR15

47KR23

47KR21

47KR25

47KR2

1KR24

1KR35

1KR38

*R51

*R46

4.7KR10

4.7KR32

100KR20

100KR49

100KR44

8.2KR53

36KR52

56KR50

75KR47 1.2MR48

10KR37

10KR36

10K1%R42 10K1%R43

1KR19

3.3KR31

3.3KR41

Y1

560pC7

.1uC6

.1uC14

.1uC9

.1uC30

.1uC26

.1uC34

.1uC42

.1uC31 .1uC33

.1uC28

.1uC22

.1uC20

.1uC17

.1uC15

.1uC3.1u

C1

.1uC32

560pC18

560pC27

560pC39

560pC43

560pC19

.01uC23

.01uC47

.01uC35

.01uC21

2.2uC2

2.2uC44

2.2uC25

2.2uC24

.1u

C10

.1u

C11

10uC16

10u

C12

10u

C13

100pC37

100pC5

.0068uC38

.0068uC45

.001uC46

12pC8

39pC36

MIC5206-3.3BM5

IN11

ENA3

GN

D2

LVF

4

OUT 5

VR1

MIC5206-3.3BM5

IN11

ENA3

GN

D2

LVF

4

OUT 5

VR2

MIC5206-3.3BM5

IN11

ENA3

GN

D2

LVF

4

OUT 5

VR3

-

+

2

31

LMV324

U7:1-

+

6

57

LMV324

U7:2

-

+

9

108U7:3

-

+

13

1214

411

U7:4

-

Y03

Y11

GN

D2

Z 4

VD

D5

S6

U5

-

SH

DN

7

V+

4

CLK

8

IN2 OUT 5

CO

M1

OS

6

V-

3

U4

LMV325

LMV326

-

P1-

316

P5-113

VD

D42

P3-111

P3-59

P4-5 4

P4-7 3

P2-637P3-78

P2-747

P3-628

P5-224

P3-427

P1-220

VSS18

AGND36

P0-743

P0-146

P2-

548

P0-345

P0-641

P4-1 6P0-544

P2-

31

P2-

12

P0-

038

P0-

440

P0-

239

P2-0 34

P1-4 21

P1-6 22

P2-2 35

P1-1 17

P1-0 19XRES 29

P3-0 25

P5-0 23

P3-2 26

P5-3 12

P3-310 P4-3 5P1-5 15P1-7 14

P4-6 33P4-4 32P4-0 30P4-2 31

PAD49

U1

*R11 +5V*R12

0RR8

*R5

*R18 +5V

MODE_OUTMODE_OUTPAD6

*

CS1

SO2

SI5

SCK6

VCC 8

HOLD 7

WP 3

GND 4

U6

From 7359b8_vs1200_Wired_PRJPCB Schematic10u

C40

2RR34

2RR39

2RR45

27KR40

+3.3V0RR347KR4

SB1D3

TP1

TP2

TP3

TP4

TP5 TP6

TP7

TP8

TP10

TP11

TP12

TP13

TP14

TP15

TP16

TP17

TP18

* = NOT INSTALLED

*C41

220pC29

TP9

VDDP3-5

GNDP3-4

XRESP3-3

SDATAP3-2

CLKP3-1

TDOP4-1 TDIP4-2 TMSP4-3 TCKP4-4

RSTP4-5GNDP4-6

PROG_INPROG_INPAD2

PROG_OUTPROG_OUTPAD4

0RR17

*R33

+3.3VA

CS7

SO12

SI13

SCK14

DVDD 1

INT29 INT1/DRDY8

GND 2

-

AVDD 6

GND 5

IADDR0 4

GND 10

GND 11

U2+3.3V .1u

C4

0RR1

4001Q2

4001Q1

4001Q5

4001Q4

4001Q3

4001Q6

47KR26

*R30

*R27

+3.3V

COR_INCOR_INPAD3

100KR? +3.3V

CP

CJS

2010-10-22 DML

2012-10-24

C-1

1 of 1 7711

MIDIAN ELECTRONICS, INC.DATE:

DESIGN:

DWN BY:

REV:

APPR

COPYRIGHT ©

REV

SHEET PROJECT NUMBER

DOCUMENT NAME

SCHEMATIC2012

TS-120-IC2

*

MISO016

SSO15

XTAL33

PWMA03

IRQA11

FAULTA012

ANA020

CAN_RX46 AN

A1

21

RST 2

TCK 39

TMS 40

TDI 41

TDO 42

EX

TAL

32

VSS

31

VSS

13

VSS

10

VSS

45

VCAP2 17

VCAP1 43

VDDADC 30

VSSADC 29

VREFIN 26

VREFMID 27

VREFP 28

VD

D_I

O5

VD

D_I

O14

VD

D_I

O34

VD

D_I

O44

U3

PIC101 PIC102

COC1

PIC201 PIC202

COC2

PIC301 PIC302

COC3

PIC401 PIC402

COC4

PIC501PIC502

COC5

PIC601 PIC602

COC6

PIC701PIC702

COC7 PIC801PIC802

COC8

PIC901PIC902

COC9

PIC1001PIC1002

COC10

PIC1101PIC1102COC11 PIC1201

PIC1202COC12 PIC1301

PIC1302COC13

PIC1401 PIC1402

COC14

PIC1501PIC1502

COC15 PIC1601PIC1602

COC16

PIC1701 PIC1702

COC17PIC1801PIC1802

COC18 PIC1901PIC1902

COC19

PIC2001 PIC2002

COC20

PIC2101PIC2102

COC21PIC2201 PIC2202

COC22

PIC2301PIC2302

COC23

PIC2401 PIC2402

COC24

PIC2501 PIC2502

COC25

PIC2601PIC2602

COC26PIC2701 PIC2702

COC27

PIC2801 PIC2802

COC28

PIC2901PIC2902

COC29

PIC3001 PIC3002

COC30

PIC3101PIC3102

COC31PIC3201PIC3202

COC32

PIC3301 PIC3302

COC33

PIC3401PIC3402

COC34

PIC3501PIC3502

COC35PIC3601PIC3602

COC36

PIC3701 PIC3702

COC37

PIC3801 PIC3802

COC38

PIC3901PIC3902

COC39PIC4001PIC4002

COC40

PIC4101 PIC4102

COC41

PIC4201PIC4202

COC42

PIC4301PIC4302

COC43 PIC4401PIC4402

COC44PIC4501 PIC4502

COC45

PIC4601PIC4602

COC46PIC4701PIC4702

COC47

PID101PID102

COD1

PID201PID202

COD2

PID301PID302

COD3

PID401PID402

COD4

PID501PID502

COD5

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

PIP1014COP1:14

PIP1015

COP1:15

PIP1016COP1:16

PIP1017

COP1:17

PIP1018

COP1:18PIP1019

COP1:19PIP1020

COP1:20

PIP1021

COP1:21

PIP1025

COP1:25

PIP1028

COP1:28PIP1029

COP1:29

PIP1030

COP1:30

PIP1031

COP1:31

PIP1032

COP1:32

PIP1033

COP1:33

PIP1034

COP1:34

PIP1035

COP1:35

PIP1036

COP1:36

PIP1037

COP1:37

PIP1038

COP1:38

PIP1039

COP1:39

PIP1040

COP1:40

PIP301

COP3:1

PIP302

COP3:2

PIP303

COP3:3

PIP304

COP3:4

PIP305COP3:5

PIP401

COP4:1

PIP402

COP4:2

PIP403

COP4:3

PIP404

COP4:4

PIP405

COP4:5PIP406

COP4:6

PIPAD101COPAD1

PIPAD201COPAD2

PIPAD301COPAD3

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COPAD5

PIPAD601

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PIR1601 PIR1602

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COR18PIR1901 PIR1902

COR19PIR2001PIR2002

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PIR2501 PIR2502

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COR34

PIR3501 PIR3502

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PAC202 PAC201COC2

PAC402

PAC401COC4

PAC502PAC501COC5

PAC702 PAC701COC7

PAC802

PAC801COC8

PAC1802 PAC1801COC18

PAC2602

PAC2601

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PAC2701COC27

PAC2902 PAC2901COC29

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PAC3602 PAC3601COC36

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PAR1702 PAR1701COR17

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PAU3023PAU3024

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PAVO104 PAVO105 PAVO106

PAVO1014 PAVO1013PAVO1012

PAVO1011PAVO1010

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PAVO1023

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PAC102 PAC101COC1

PAC302 PAC301COC3

PAC602PAC601 COC6 PAC902 PAC901COC9PAC1002 PAC1001COC10

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PAC1202

PAC1201 COC12

PAC1302 PAC1301COC13

PAC1402

PAC1401 COC14

PAC1502

PAC1501 COC15PAC1602

PAC1601 COC16PAC1702

PAC1701 COC17

PAC1901PAC1902 COC19

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PAC2001 COC20

PAC2102PAC2101 COC21

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PAC2302PAC2301 COC23PAC2402 PAC2401COC24PAC2502PAC2501 COC25

PAC2802 PAC2801COC28

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PAC3202PAC3201 COC32

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PAC3802 PAC3801COC38

PAC3902 PAC3901COC39

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PAR301PAR302 COR3

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PAR1901 PAR1902COR19

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