Benefon Delta Service Manual

Product: TDP-40-TN2 (Delta) /

28.1.1999

SERVICE MANUAL

Tdp40enTOC.fm

BENEFON DELTA
TDP-40-TN2

1

Product: TDP-40-TN2 (Delta) /

28.1.1999

TDP-40-TN2

1.0 GENERAL . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 - 1

1.1 TECHNICAL INFORMATION . . . . . . . . . . . . . . . . . . . . 1 - 1

1.1.1 Operational System . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 - 1

1.1.2 Dimensions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 - 1

1.1.3 Power Consumption . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 - 1

1.1.4 Accessories . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 - 1

1.1.5 Ringing Tones . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 - 2

1.1.6 Memory . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 - 2

1.1.7 Clock . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 - 2

1.1.8 Pager . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 - 2

1.1.9 Other Functions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 - 2

1.1.10 Additional Exchange-Based Features . . . . . . . . . . . . . . . . . . . 1 - 3

1.1.11 Manufacturer . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 - 3

1.2 PRODUCT FAMILY CONSISTS OF . . . . . . . . . . . . . . 1 - 4

2.0 OWNER’S MANUAL . . . . . . . . . . . . . . . . . . . . . . . . . . 2 - 1

3.0 INSTALLATION INSTRUCTIONS . . . . . . . . . . . . . . . 3 - 1

3.1 Identification Memory Programming . . . . . . . . . . . . . . 3 - 2

3.1.1 Program the Subscriber Number . . . . . . . . . . . . . . . . . . . . . . . . 3 - 2

3.1.2 Program the Password Code . . . . . . . . . . . . . . . . . . . . . . . . . . . 3 - 2

3.1.3 Program the Serial Number . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3 - 2

3.1.4 Program the Date of Sale . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3 - 2

3.1.5 Program the Display-Own-Number . . . . . . . . . . . . . . . . . . . . . . 3 - 3

3.1.6 Often Used Local Commands . . . . . . . . . . . . . . . . . . . . . . . . . . 3 - 3

3.2 DELTA CAR KIT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3 - 4

3.2.1 Antenna . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3 - 4

3.2.2 Phone Holder HDH-40 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3 - 4

3.2.3 Microphone . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3 - 4

3.2.4 Cable . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3 - 4

3.2.5 External Handset HDS-50 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3 - 5

3.2.6 Car Box CIU-40 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3 - 5

3.2.7 Hf Speaker . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3 - 5

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Product: TDP-40-TN2 (Delta) /

28.1.1999

3.3 HF-FUNCTION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3 - 7

3.3.1 CAR KIT TUNING AND OFFICE SET TUNING (theory) . . . . . . 3 - 7

3.3.2 CAR KIT SWING AND OFFICE SET SWING (theory) . . . . . . . 3 - 9

3.3.3 Voice Controlled HF Installation . . . . . . . . . . . . . . . . . . . . . . . . 3 - 10

3.4 Light Car Installation Kit . . . . . . . . . . . . . . . . . . . . . . . 3 - 12

3.5 Questions and Answers . . . . . . . . . . . . . . . . . . . . . . . 3 - 13

4.0 LOCAL SERVICE-COMMANDS . . . . . . . . . . . . . . . . . 4 - 1

4.0.1 Keyboard . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4 - 1

4.0.2 Commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4 - 1

4.0.3 Error Messages . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4 - 11

5.0 TUNING INSTRUCTIONS . . . . . . . . . . . . . . . . . . . . . . 5 - 1

5.0.1 Watchdog Activation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5 - 1

5.0.2 Battery Voltage Calibration . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5 - 1

5.0.3 TX-Power Level Adjustment . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5 - 1

5.0.4 Frequency Adjustment . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5 - 1

5.0.5 Learning the 1 kHz Frequency Shift . . . . . . . . . . . . . . . . . . . . . . 5 - 2

5.0.6 Tuning the Receiver . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5 - 2

5.0.7 Fsk-Split Level Programming . . . . . . . . . . . . . . . . . . . . . . . . . . . 5 - 2

5.0.8 Rssi-Level Programming . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5 - 2

5.0.9 TX Audio Tuning . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5 - 3

5.0.10 Microphone Level Adjustment . . . . . . . . . . . . . . . . . . . . . . . . . 5 - 3

5.0.11 FFSKT Deviation Adjustment . . . . . . . . . . . . . . . . . . . . . . . . . . 5 - 3

5.0.12 FII Deviation Adjustment . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5 - 3

5.0.13 DTMF Deviation Adjustment . . . . . . . . . . . . . . . . . . . . . . . . . . 5 - 4

5.0.14 Subscriber Number Programming . . . . . . . . . . . . . . . . . . . . . . 5 - 4

5.0.15 Select Battery Type . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5 - 4

6.0 PHONE’S CONSTRUCTION . . . . . . . . . . . . . . . . . . . . 6 - 1

6.1.1 Front Cover . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6 - 2

6.1.2 Back Cover . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6 - 2

6.1.3 Type plate . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6 - 2

6.1.4 Antennas . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6 - 2

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6.1 MECHANICS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6 - 2

6.2 LOGIC / AUDIO . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6 - 3

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Product: TDP-40-TN2 (Delta) /

28.1.1999

6.2.1 General . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6 - 3

6.2.2 Connectors: . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6 - 4

6.2.3 Circuit Diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6 - 6

6.2.4 Functions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6 - 6

6.2.5 Function Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6 - 10

6.2.6 Audio Module Tuning Instructions . . . . . . . . . . . . . . . . . . . . . . 6 - 14

6.2.7 Audio Locals . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6 - 16

6.2.8 Audio Gate Controls . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6 - 18

6.2.9 Parts list . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6 - 22

6.3 RF MODULE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6 - 37

6.3.1 General . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6 - 37

6.3.2 Functional Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6 - 37

6.3.3 Control- and Output-Signals . . . . . . . . . . . . . . . . . . . . . . . . . . . 6 - 37

6.3.4 General . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6 - 38

6.3.5 Function Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6 - 38

6.3.6 Control- and Output-Signals . . . . . . . . . . . . . . . . . . . . . . . . . . . 6 - 39

6.3.7 General . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6 - 40

6.3.8 Input- and Output-Signals . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6 - 41

6.3.9 RSSI-Level Adjustment . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6 - 41

6.3.10 General . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6 - 42

6.3.11 Function Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6 - 42

6.3.12 Control- and Output-Singnals . . . . . . . . . . . . . . . . . . . . . . . . . 6 - 42

6.3.13 Tuning . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6 - 42

6.3.14 Parts list . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6 - 46

6.3.15 Parts list of Regulator . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6 - 54

6.3.16 Parts list of Antenna Switch Unit . . . . . . . . . . . . . . . . . . . . . . 6 - 59

6.4 BATTERIES . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6 - 62

6.4.1 BATTERY PACK . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6 - 63

6.4.2 Parts list . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6 - 64

7.0 CHARGING . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7 - 1

7.3.1 General . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7 - 5

7.3.2 Charging the phone . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7 - 5

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7.1 MAINS CHARGER CMA-50-230 . . . . . . . . . . . . . . . . . 7 - 2

7.2 LIGHTER SOCKET CHARGER CCS-50-12 . . . . . . . . 7 - 3

7.3 DESKTOP CHARGER . . . . . . . . . . . . . . . . . . . . . . . . . 7 - 4

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Product: TDP-40-TN2 (Delta) /

28.1.1999

7.3.3 Charging the spare battery . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7 - 5

7.3.4 Discharging the reserve battery . . . . . . . . . . . . . . . . . . . . . . . . . 7 - 6

7.3.5 Execution . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7 - 7

7.3.6 Parts list of Desktop Charger . . . . . . . . . . . . . . . . . . . . . . . . . . 7 - 10

7.3.7 Parts list of Table Charger Extra Module . . . . . . . . . . . . . . . . . 7 - 12

8.0 CAR ASSEMBLY KIT . . . . . . . . . . . . . . . . . . . . . . . . . 8 - 1

8.1 CARBOX . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8 - 1

8.1.1 Including attached functions: . . . . . . . . . . . . . . . . . . . . . . . . . . . 8 - 2

8.1.2 Connector descriptions: . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8 - 2

8.1.3 Operation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8 - 4

8.1.4 Parts list OW0314 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8 - 5

8.2 PHONE HOLDER . . . . . . . . . . . . . . . . . . . . . . . . . . . 8 - 17

8.3 EXTERNAL HANDSET WITH CRADLE HDS-50 . . . 8 - 21

8.3.1 External Handset (not serviceable) . . . . . . . . . . . . . . . . . . . . . 8 - 21

8.3.2 General . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8 - 22

8.3.3 Connector XIN Signals . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8 - 23

8.3.4 Microphone . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8 - 23

8.3.5 Speaker . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8 - 23

8.3.6 Hook . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8 - 23

8.3.7 Parts list OO0009 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8 - 24

8.3.8 Cradle . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8 - 28

9.0 OFFICE SET . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9 - 1

9.1 OFFICE SET DDS-40 . . . . . . . . . . . . . . . . . . . . . . . . . 9 - 2

9.1.1 General . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9 - 2

9.1.2 Connectors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9 - 3

9.1.3 Operation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9 - 7

9.1.4 Parts list OO0300 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9 - 9

9.1.5 Parts list OO301 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9 - 18

9.1.6 Parts list OO0302 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9 - 20

9.2.1 External Handset (not serviceable) . . . . . . . . . . . . . . . . . . . . . 9 - 23

9.2.2 General . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9 - 24

9.2.3 Connector XIN Signals . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9 - 25

9.2.4 Microphone . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9 - 25

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9.2 EXTERNAL HANDSET HXS-40 . . . . . . . . . . . . . . . . 9 - 23

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Product: TDP-40-TN2 (Delta) /

28.1.1999

9.2.5 Speaker . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9 - 25

9.2.6 Hook . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9 - 25

9.2.7 Parts list OO0009 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9 - 26

10.0 OTHER ACCESSORIES . . . . . . . . . . . . . . . . . . . . . 10 - 1

10.1 LINE INTERFACE LIF-40 . . . . . . . . . . . . . . . . . . . . 10 - 2

10.1.1 General . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10 - 2

10.1.2 Using the line interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10 - 2

10.1.3 Technical information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10 - 3

10.1.4 Manufacturers Declaration for BABT/SITS/85/22 . . . . . . . . . 10 - 7

10.1.5 Parts list OO0245 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10 - 9

10.2 BRANCHING UNIT . . . . . . . . . . . . . . . . . . . . . . . . 10 - 16

10.2.1 General . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10 - 17

10.2.2 Connectors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10 - 17

10.2.3 Operation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10 - 18

10.2.4 Parts list OO0241 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10 - 19

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1.0 GENERAL

General

1.1 TECHNICAL INFORMATION

1.1.1 Operational System

NMT-450i

1.1.2 Dimensions

Size: 58 x 170 x 29 mm
Weight: 350 g

Product: TDP-40-TN2 (Delta) / General

28.1.1999

1.1.3 Power Consumption

- Batteries: 5 x 1.2 V NiCd (or NiMH)

- Sleep current: 2 mA

- Standby current: 65 mA

- Conversation mode, high power: app. 0.9 A

- Conversation mode, low power: app. 0.4 A

Service / charger units

- manual selection of battery charging / discharging or

- automatic charging

1.1.4 Accessories

- hands free car kit (carbox, holder, car-radio mute, external antenna,
microphone, loudspeaker, external alert)

- light holder

- line interface

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- mains charger

- cigarette lighter charger

- desktop charger

- branching unit

- external handset with holder

- office set

1

1.1.5 Ringing Tones

Adjustable

- frequency

- number of ringing tones / pulse duration

- volume

- progressive or fixed

Silent alarm

- short tone and alarm text in the display

1.1.6 Memory

Alphanumeric

Product: TDP-40-TN2 (Delta) / General

28.1.1999

Repeat: last dialled number or one of 5 numbers from the quick-memory locations

1.1.7 Clock

1.1.8 Pager

- 99 memory locations, 23 characters / memory location

- memory scroll and recall in alphabetical or numerical order

- writing to memory during a call

- time display

- real time alarm setting

- real time power on setting

- real time power off setting

- elapsed conversation time counter

- received call counter and time display

- answers incoming calls and receives numeric messages

- 30 memory locations (23 characters / location)

- pre-set number of ring tones before answering (0...6)

1.1.9 Other Functions

DTMF - receiver / transmitter
DTMF - key tones
Display and key illumination

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Volume control

- 6 levels

- level indicator

Battery charge level indicator

- battery empty alarm tone and display

- used battery capacity display

- battery specific charge memory

Field strength indicator
Battery-save function
Menu structure for user customisation
Automatic Prefix Management (APM)

Product: TDP-40-TN2 (Delta) / General

28.1.1999

Keys lockable against accidental operation
Password co de to prevent unauthorised use
SIS protection function

1.1.10 Additional Exchange-Based Features

- R-key (Register recall)

- M-key (DTMF signal transmission)

1.1.11 Manufacturer

Benefon Oyj
P.O. Box 84
24101 Salo

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Finland

Tel. +358 2 77400 Fax. +358 2 7332633

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Product: TDP-40-TN2 (Delta) / General

28.1.1999

1.2 PRODUCT FAMILY CONSISTS OF

- BENEFON DELTA HANDPORTABLE

Colours: Blac k, Grey, Red, Green, Blue

- MAINS CHARGER

- CIGARETTE LIGHTER CHARGER

- DESKTOP CHARGER

Quick charger for Benefon Delta and extra battery.

- HANDSTRAP

- BELT CLIP

- OFFICE SET

- HANDS FREE CAR KIT

- LIGHT CAR KIT

Contains car antenna and charger.

- BRANCHING UNIT

To connect charger and line interface simultaneously or to connect extra
handset and line interface simultaneously.

- LINE INTERFACE

Interface unit for modem’s, fax machines, telephones etc.

- EXTRA HANDSET

Handset for Hands Free Car Kit.

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- EXTRA ANTENNA FOR BENEFON DELTA

Quarter wave antenna.

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HANDS FREE CAR KIT

HDH-40

Product: TDP-40-TN2 (Delta) / General

28.1.1999

CIU-40

HDS-50

Installation
base

Microphone

Installation

base

Hf Speaker

fuse

Vbatt, +12/24V

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Car Radio Mute

External Alert

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LIGTH CAR KIT

Antenna adapter

Product: TDP-40-TN2 (Delta) / General

28.1.1999

1

2

A B C D E F

G H I

4

5

J K L

7

8

P Q R S T U V WXYZ

0

M

3

6

M N O

9

HFR

Cigarette lighter charger
CCS-50-12

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DESKTOP CHARGER

Product: TDP-40-TN2 (Delta) / General

28.1.1999

Mains c h ar g er
CMA-50-230

Desktop charger
HTP-40

B

a

t

t

e

r

y

P

h

o

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e

a

M

Extra battery

e

c

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a

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i

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ACCESSORIES

Line interface

LIF-40

Product: TDP-40-TN2 (Delta) / General

28.1.1999

TDP-40E2.fm

Branching unit

DB-40

8

OFFICE SET DDS-40

Micro­computerTelefax

Telephone

Product: TDP-40-TN2 (Delta) / General

28.1.1999

Mains

charger

Line

interface

Benefon Delta

Extra battery

Office set

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2.0 OWNER’S MANUAL

1user_gb.fm 1

Product: TDP-40-TN2 (Delta) / Installation Instructions

28.1.1999

3.0 INSTALLATION INSTRUCTIONS

Installation Instructions

PROLOGUE

These installation instructions have been prepared to assist fitters in installing the
equipment, and are as s uch o nl y to ser ve a s a g ui de . Nothing beats common sense
and good experience.

Installation is always based on the need of the customer to use the phone in the
environment in which it will be installed. Nego tiate with the customer where the dif­ferent parts will be installed. It is important that the customer tells of his own prefer­ences and choices, and that th e fitter/sale sman tells whe re it is possible /advisable to
locate different items.

It is the salesman’s responsibility to see that the installation order is properly filled
out.

RECOMMEND

- antenna location on the roof

- handset location does not interfere with road safety

- speaker located in the driver’s side leg-room

- microphone as close as possible to the driver’s mouth

- car radio mute option

ASK IF THE USER WANTS

- additional alarm

- password code

Benefon Oy

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Product: TDP-40-TN2 (Delta) / Installation Instructions

28.1.1999

3.1 Identification Memory Programming

Identification memory programming is performed by the dealer before the phone is
supplied to the user.

Connect a LOCAL BOX with programming rights to the phone base connector, and
turn on the phone. Check that LOCAL is displayed, and enter 0#.

3.1.1 Program the Subscriber Number

For systems with i-specification capabilities:

Enter 2#, Z X1 X2 X3 X4 X5 X6 K1 K2 K3 and finally F.
Z = country code, and X1...X6 = six digit subscriber number, and K1...K3 =

phone identification number.

Other systems:

Enter 2#, Z X1 X2 X3 X4 X5 X6 and finally F.
Z = country code, X1...X6 = six digit subscriber number

The subscriber number length may also va ry from system to system.
Enter 2* to verify successful programming.

3.1.2 Program the Password Code

Enter 3#, X1 X2 X3 X4 and finally F.
X1...X4 = user defined number series
Enter 3* to verify successful programming

3.1.3 Program the Serial Number

Enter 4#, a six digit serial number, and finally F.
e.g. 1 2 3 4 5 6
Enter 4* to verify successful programming

3.1.4 Program the Date of Sale

Enter 6#, the date of sale, and finally F.
The date of sale is given in the form ddmmyy e.g. 160194
Enter 6* to verify successful programming

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Product: TDP-40-TN2 (Delta) / Installation Instructions

28.1.1999

3.1.5 Program the Display-Own-Number

The phone’s own number will be displayed each time the power is turned on, after
the segment test. It is programmed into the phone by storing it in memory location

99. The memory location may also include a name of max. 10 characters, which will
be displayed along with the phone’s own number.

1. Turn the phone on without the LOCAL BOX.

2. Write the phone’s number to the display, including its dialling code .

3. If desired, w rit e also t he na me to the up per di splay ( see the phon e’s owner’s

manual).

4. Enter * 99 (and if necessary, confirm o ver-write by pressing F).

5. Check the programming by switching the power off, and then on again.

3.1.6 Often Used Local Commands

0# Local reset
01# SWING level tuning
1# HF tuning
2# Subscriber number program m ing
2* Read subscriber number
3# Password code programming
3* Read password code
4# Series number pr ogramming
4* Read series number
6# Date of sale programming
6* Read date of sale
9# Transfer short c ode memory from the phone to the Local Box
95# Select battery type (select with +/- keys and F)
95* Read battery type from battery pack memory
999* Transfer short code memory from the Local Box to the phone

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3.2 DELTA CAR KIT

The Car Kit includes a phone holder (HDH-40), a car box (CIU-40), an antenna, an
installation base, a hf speaker , a microphone and a cable. The Car Kit sales p ackage
also includes an installation material bag, which contains the necessary installation
equipment. On the 6th page you will find a diagram of connections explaining how to
install the Car Kit.

Caution:

The Car Kit should be installed by Benefon authorized installer only. An end user
should never attemp to install the Car Kit alone without any p rofessional assistance.
The professional installers have the required tools and knowledge to install the Car
Kit properly and safely. Also the terms of warranty demand that the Car Kit is
installed by professional personnel. Cable routing may cause interference with the
components of the vehicle’s electronic systems (such as inginition and braking sys­tems). It is recommended that ca ble is not routed next to these electronic compo­nents.

Product: TDP-40-TN2 (Delta) / Installation Instructions

28.1.1999

3.2.1 Antenna

Choose a suitable place for the antenna. It is recommended that you place the
antenna on the roof of the vehicle.

3.2.2 Phone Holder HDH-40

Choose such a place for the phone holder in the vehicle that will be both easy and
safe when using the phone. First, fix the installation base to the place you have cho­sen, and then install the phone holder in the installation base.

3.2.3 Microphone

Install the micro pho ne so th at i t is aim ed di rectl y at the user, and comes as close as
possible to the user’s mouth. A good place for the microphone is near the rearview
mirror where the noise level is lower than, for example, beside a windshield pillar. It
is also possible to install the microphone on a sun visor, but then it will be inconve­nient to use the sun visor and microphone at the same time. One alternative would
be a swan-neck microphone as it can be placed closest to the user’s mouth.

3.2.4 Cable

Obtain the necessary +-electricity from a suitable place, preferably directly from the
battery of the vehicle. Connect the fuse chamber to the +-wire. You will find the fuse
chamber in the inst allatio n materi al bag. Connect th e groun d lead to t he frame of the
car with a short wire.

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3.2.5 External Handset HDS-50

Install the external handset the same way as you installed the phone holder.

3.2.6 Car Box CIU-40

Place the car box out of sight inside the dashboard of the car or to another suitable
place. First, connect th e wires to the car box. I nstall th e car b ox so tha t the heat sink
has some space for cooling. The car box has holes which enable you to fasten the
car box with a cable tie. The installation material bag also contains adhe sive band
fasteners.

3.2.7 Hf Speaker

Install the speake r in a sui t able place nea r the floor of the car. To avoid echo remem­ber to pay attention to the position of the microphone as well.

Product: TDP-40-TN2 (Delta) / Installation Instructions

28.1.1999

TDP-40E6_fm5.fm

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A Diagram of Connections:

How to install a cable
to a carbox.

to HDH-40

open

Product: TDP-40-TN2 (Delta) / Installation Instructions

28.1.1999

HDH-40

HDS-50

Installation
base

Microphone

Installation

base

CIU-40

fuse

Vbatt, +12/24V

PIN

1
2

3
4
5

6

Car Radio Mute (See the installation
instructions of your car radio)

Name Colour

Car Radio Mute (active low)
Hf Speaker
Ground
External Alert (active low)

Hf Speaker
Vbatt, +12/24 V

Hf Speaker

Car Radio Mute

External Alert

Blue
Grey

Black
Brown
Grey

Red

External Alert

+ACC: to the +12 V power terminal which is

energized in the accessory position of
the ignition key

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Product: TDP-40-TN2 (Delta) / Installation Instructions

28.1.1999

3.3 HF-FUNCTION

Benefon Delta offers you a hand s free -setup for th e Car Kit and Office Set : the
background noise tuning (CAR KIT AND OFFICE SET TUNING) and MIC-ERP
contrast tuning (CAR KIT AND OFFICE SET SWING).

3.3.1 CAR KIT TUNING AND OFFICE SET TUNING (theory)

You can set up the activation level of the microphone by using the CAR KIT
TUNING option. The level is correct when the microphone path is activated by
voice alone, and not, for example, by background noise in your car or office.

The following figure shows you the CAR KIT TUNING AND OFFICE SET
TUNING setup process.

a. If the CAR KIT TUNING is set too high, your voice (1) will not activate the
microphone path properly, and the pe rson at the other end will only hear
interrupted transmission of speech.

(1)

Car kit tuning

50
40
30

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Product: TDP-40-TN2 (Delta) / Installation Instructions

28.1.1999

b. If the CAR KIT TUNING has been set up too low, the background noise in
your car (2) will activate the microphone path, and the volume of the HF­speaker will be low.

50
40
30

c. When the CAR KIT TUNING has been set correctly only your voice (1 & 3)
will open the microphone path.

(1 )

(2)

Car kit tuning

(3)

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50
40
30

Benefon phones have been set in our factory so that they will function in most
cars. The factory setting for the CAR KIT TUNING is 017.

Car kit tuning

(2 )

8

Product: TDP-40-TN2 (Delta) / Installation Instructions

K

K

28.1.1999

3.3.2 CAR KIT SWING AND OFFICE SET SWING (theory)

The four-step CAR KIT SWING AND OFFICE SET SWING tuning is used to
set the contrast of the microphone amplification/speaker attenuation swing. In
the following figures the swing position while listening to the Car Kit or Office
Set is indicated by a solid line and the position while speaking into Car Kit or
Office Set the indicated by a dotted line.

a. With a tuning value of 4 it is possible to obtain the smallest difference
between the amplification and attenuation of the microphone and speaker. This
means that the connection is almost bidirectional. If the HF-function easily
creates feedback, decrease the value of the CAR KIT SWING AND OFFICE
SET SWING. By turning down the volume it is possible to reduce the
occurance of feedback.

MIC

SP

Listening

4

3
2
1

Speaking

b. With a tuning value of 1 it is possible to obtain the greatest difference
between the amplification and attenuation of the microphone and speaker. This
means that the connection is almost unidirectional.

MIC

SP

TDP-40E6_fm5.fm

Listening

4

3
2

1

Speaking

The factory setting for the CAR KIT SWING AND OFFICE SET SWING is 4.

9

Product: TDP-40-TN2 (Delta) / Installation Instructions

28.1.1999

3.3.3 Voice Controlled HF Installation

To ensure trouble-free HF op eration, care should be t aken in positioni ng the speaker
and microphone, as outlined above.

3.3.3.1 HF Tuning

The purpose of the t uning is to adjust the level at which the microphone is switched
on. The trigger level must be a litt l e higher than th e normal vehicle background
noise, but not more than the user’s normal voice level.

3.3.3.2 Automatic HF Tuning

When the speaker and m icrophone have b een installed , connect the LOCAL ad apter
and set the phone to LOCAL mode.

1. Turn the phone on.

2. Enter 1#

Note that the displayed value changes in response to background noise.

3. Press F when the the display shows the highest value corresponding to

background noise.
HF is now set to the level corresponding to the highest background noise. In

most cases, the recommended value will be between 16 and 18.

4. Store the value by pressing the F key again.

If the background noise can not for some reason be simulated, the average
level must be estimated, and the tuning performed manually (see Manual HF
tuning).

3.3.3.3 Manual HF Tuning

It will be necessary to set the HF tuning manually if it is not possible to run a simul a­tion test, or if it is known by experience the desired microphone trigger level.

1. Set the phone to LOCAL mode.

2. Enter 1# and F

3. Enter the desired value and F.

The value must be three digit e.g. 018.

3.3.3.4 Swing-level Tuning

The swing-level contr ols t he HF feed back da mp ing (t he la rg er the va lu e, the smal ler
the damping). In phones leaving the factory, the default value is 4.

In practice, SWING means the level to which the incoming volume level will be sup-

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Product: TDP-40-TN2 (Delta) / Installation Instructions

28.1.1999

pressed when speaking and vice versa.
The SWING level must be decreased, if the sound in HF mode starts to feed-back

(at high volume le vel s) i n spite of careful positioning of the speaker a nd mi cr op ho ne .

1. Set the phone to LOCAL mode.

2. Enter 01#, and the current SWING level is displayed.

3. Select a new value 1...4.

4. Store the value by pressing F.

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3.4 Light Car Installation Kit

Antenna adapter

Product: TDP-40-TN2 (Delta) / Installation Instructions

28.1.1999

1

2

A B C D E F

G H I

4

5

J K L

7

8

P Q R S T U V WXYZ

0

M

3

6

M N O

9

HFR

Cigarette lighter charger
CCS-50-12

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3.5 Questions and Answers

Question: The message BATT MEMO is displayed when turning the phone on or

changing the battery. What does it mean?
Answer: There is a memory circuit inside the battery pack which contains informa-

tion about the battery type, charging currents, battery charge counter, etc. If the
phone is not able to read this information when being turned on, it displays the mes­sage BATT MEMO.

Question: How can the above fault be repaired?
Answer: Clean the battery contacts, set the phone to LOCAL mode, and read the

battery type with command 95*. If the type is incorrect, then programme the correct
type with the command 95#. The arrow keys can be used to select the battery type,
and pressing F will store the info rmation in the battery p ack memory. If BATT MEMO
is still displayed when turning the phone on, then the battery pack should be
replaced.

Product: TDP-40-TN2 (Delta) / Installation Instructions

28.1.1999

If the phone is not able to read the battery pack memory, it will assume that the bat­tery type is 600 mAh NiMH. The phone cannot necessarily charge the battery to its
full capacity, charging currents are small, and charging times are long.

Question: The phone displays the message B BATT. What does it mean, and how
can the fault be repaired?

Answer: Inside the phone, there is a back-up battery for RAM memory. When the
phone is off and the battery pack is removed or completely empty, the back-up bat­tery will supply RAM memory with enough current to ensure that no information is
lost. Typical information in RAM memory are quick-memory numbers, short code
memory numbers - information provided by the user.

Repair: Replace the back-up battery.
Note ! The B BATT message may be displayed after changing the program PROM.

In this case, no action is required.
Question: Ca n short code m emories b e transferre d from an ol der Benefo n phone to

a new one?
Answer: No. In new phones there are more alpha-numeric characters and the mem-

ory construction is different from older models. On the other hand, numbers can be
transferred between Benefon Beta and Benefon Delta.

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Product: TDP-40-TN2 (Delta) / Local

28.1.1999

4.0 LOCAL SERVICE-COMMANDS

Local

4.0.1 Keyboard

HF/HS

SND/END termination of Local command

R

+/- Volume etc. control and adjustment (see commands)

FR

4.0.2 Commands

(XXX)# executes
(XXX)* terminates equivalent (XXX)# comman d
XXXX# channel c ommand

Audio path and microphone switching between ERP,
SPK, and EXTHS

SPK is indicated by the HF symbol
EXTHS is indicated by the flashing HF symbol
ERP is indicated when the HF symbol is not visible

A, b, C, d, E, F input (Input is concluded by either the F
key or the next number) Note: fi rst enter a number.

To change to NMT mode, if the local box has already
been removed

TDP-40E3_fm5.fm

Note: In local mode * = b and # = c in the lower display

1

4.0.2.1 Installation and Sales.

0# Return to the local normal mode e.g. middle radio channel

01# VOX value selection

the chosen VOX value is displayed
enter a new value 1...4
press F to enter

1# VOX tuning

press F to stop measurement (fixing value)
press F to save tuned value

2# Subscriber number programming

enter 7 digits number (and 3 digits password if needed) and
press F to enter

Product: TDP-40-TN2 (Delta) / Local

28.1.1999

2* Read subscriber number

3# Password code programming

enter 4 digits and F

3* Read password code

4# Serial number programming

4* Read serial number

5# Set country of origin

country is displayed
enter new country 0...9, F to enter

6# Date of sale programming

6* Read date of sale

7# Set time (hours and minu tes)

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7* Read time

8# Set date (day XX, month XX, year XX)

8* Read date

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Product: TDP-40-TN2 (Delta) / Local

28.1.1999

.

9# Short code memory transfer to local box

999* Short code memory transfer back to t he radio

95* Read battery type and capacity

also production week and year

95# Program battery type and capacity

also production week and year

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4.0.2.2 Service and Testing 0...

#port command

enter: 0 68HC11A1 PA

1 IA8000 PA
2 IA8000 PB
3 IA8000 PC
4 IA8000 PD
5 IA8000 PF
6 CARBOX
7LIF

- The port state is shown in the upper display in hexadecimal form (0...FF)
0 = 0000 1 = 0001 2 = 0010 3 = 0011 4 = 0100

5 = 0101 6 = 0110 7 = 0111 8 = 1000 9 = 1001
A = 1010 B = 1011 C = 1100 D = 1101 E = 1110
F = 1111

Product: TDP-40-TN2 (Delta) / Local

28.1.1999

- To change the port state (when the port number z is displayed) enter (z)XY

X bit number (0...7)
Y bit state (0 / 1)

- +/- can be used to change the active port number

02# Read the AD channel (real time)

- enter the AD channel number
0 = RSSI 1 = NTC 2 = MICDET 3 = ERPDET

4 = TEMP 5 = BATVOLT 6 = POTIND

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4.0.2.3 Logic Tests 1..

10# Memory test

11# COP test

12# "0" frequency transmission

12* End transmission

13# "1" frequency transmission

Product: TDP-40-TN2 (Delta) / Local

28.1.1999

- EPROM; if error XX1 (no error, XX0)

- EEPROM; if error X2X (no error, X0X)

- RAM; if error 3XX (no error, 0XX)

- If error, then WDFAIL displayed

- Does not set transmitter etc.

Does not set transmitter etc.

13* End transmission

14# Open frame transmission

- framework specified by entering
N1 N2 N3 P(X) Y1 Y2 Z X1 X2 X3 X 4 X5 X6 J1 J2 J3 #

- default value frame 15

- letters A...F are entered with the R-key

14* End transmission

15# Receive frame

16# FSK-notification test (real time)

- XY displayed
X = 1, FSK level exceeds the tuned level (X = 0, below)
Y = 1, FSK signal detected (Y = 0, not detected)

18# DTMF loop test

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19# Read machine type

96#

Start charger control test (con trol voltage -2.5V, I in = -

1.3 A)

96* Terminate ch arger control test (control voltage 0V)

5

4.0.2.4 Audio 2..

20# AUDIOPOWER ON

20* AUDIOPOWER OFF

21# TXAUDIO ON

21* TXAUDIO OFF

22# RXAUDIO ON

22* RXAUDIO OFF

23# FIILOOP ON

Product: TDP-40-TN2 (Delta) / Local

28.1.1999

23* FIILOOP OFF

24# FSK ON

24* FSK OFF

25# COMP ANDER/EXPANDER ON

25* COMP ANDER/EXPANDER OFF

200# Audio circuit SC11370 settings

1. select register (0...b) +/- keys

2. select the bit to be changed 0...7

3. select the bit logic state 0 or 1

201# Audio circuit SC11370 tuning

1. select the register to be tuned 1...0
1 NORMDEV GC2
2 HFTXATT GC3
3 MAXDEVLO GC7
4 MAXDEVHI GC10
5 ERPVOL GC8
6 RXAUDLEV GC9
7 MICSENS GC1
8 DTMFLEV GC4
9 FFSKTXLEV GC5
0 FIILEV GC6
+/- keys to select level (0...15)

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Product: TDP-40-TN2 (Delta) / Local

28.1.1999

203# DTMF tone generator settings

204# TXAUDIO and RXAUDIO ON

210# +55 C tuning

211# +25 C tuning

212# 0 C tuning

213# -25 C tuning

216# Deviation correction constant (to reduce distortion)

217# Deviation correction limits

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4.0.2.5 RF 3..., 4...

30# Transmitter ON

30* Transmitter OFF

31# Transmitter ON low power

31* Transmitter OFF

32# Transmitter ON medium power

32* Transmitter OFF

Product: TDP-40-TN2 (Delta) / Local

28.1.1999

Note: Does not set the power level (if the transmitter was
OFF, power setting= 0)

35# Low channel

36# Middle channel

37# High channel

38# RSSI level tuning

- level to be tuned shown in the u pper display
PG -58, PG -68, PG -93, PG -103, PG -115

- enter F to tune the next level

- value can be saved if -58dBm> -68dBm> -93dBm> ­103dBm >-115dBm

38* Read the carrier wave level tuning levels from EEPROM

380# RSSI correction constant

39# Power level tuning

- power level shown in the upper display 150mW 1200mW

- power is increased with the + key and decreased with the ­key

- enter F to save

39* read the tuned power level s f ro m EEP RO M

43# CHANNEL SCANNING

TDP-40E3_fm5.fm

M = 1.2 W, L = 150 mW

- starts from the current channel

- displays the channel in the upper display, and the TX-fre­quency in the lower display

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Product: TDP-40-TN2 (Delta) / Local

28.1.1999

44# CHANNEL STEPPING

- the +/- keys step through the channels one at a time

- displays the channel in the upper display and the TX fre­quency in the lower display

44* CHANNEL STEPPING

- the +/- keys step through the channels one at a time

- displays the channel in the upper display and the RX fre­quency in the lower display

45# AFC ON

45* AFC OFF

450# AFC 1kHz correction tuning (value 00000...65535)

- set thousands, press F

- set hundreds, press F

- set tens, press F

- set units, press F
(select with the +/- keys. shown in the upper display)

450* Read the AFC 1kHz correction

452# TCXO fine tuning

- enter a 5 digit number and store with F
Note: After 0# the radio is on the middle channel. The xxxx#

channel command can b e used to chan ge the tuni ng chan nel.

452* Read the TCXO fine tuning value

453# 450 kHz intermediate frequency measurement and display

4.0.2.6 Equipment and Accessory Tests 5...

50# Display and illumination test

50* Display and illumination OFF

4.0.2.7 Other Commands 6..., 7...

60# Printing out all power off counters

TDP-40E3_fm5.fm

0RAM
1EPROM

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Product: TDP-40-TN2 (Delta) / Local

28.1.1999

2EEROM
3COP
4 RSSI
5TXON
6 HANDSET OFF
7FSK
8SIM

60* Reset all power off counters

61* Read the 4 digit sales codes from EEPROM

- the sales code (= local box number) is always stored
when programming the subscriber code.

- 1 = newest ... 5 = oldest (number given by corre­sponding number key)

- the sales code is XYZW (= 0...9 0...9 0...9 0...9)

- If the display contains odd characters, the code is
unused

62# Read program version (ddmmyy)

70# FSK split level tuning

- enter F to save

70* Read FSK split level value

71# Program basic band

- enter low channel (1...4 digits) and F

- enter high channel (1...4 digits) and F

- settings can be saved if the lower limit * upper limit
(according to their frequencies)

71* Read the basic band

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4.0.2.8 Clearing Memories 8...

80# Clear RAM

81# Clear EEPROM (not tuning values nor sales codes)

810# Clear the whole of EEPR OM (not sales codes)

Product: TDP-40-TN2 (Delta) / Local

28.1.1999

82#

4.0.2.9 Sleep Timer

90# Activate the sleep timer

90* Deactivate the sleep timer

91# Sleep timer test

4.0.2.10 SIS Commands

100# SIM uses normal SAK numb er

100* SIM uses test SAK number

Clear RAM and EEPROM (not tuning values nor sale­scodes)

- sets phone to sleep mode after 5 seconds for approx. 5
seconds

- default value when phone is turned on

- to test signaling, remove local box and enter F R to
switch to NMT mode

101# SIM sleep mode

101* SIM wake-up

4.0.2.11 Updating the Local Box

900# Re-programming of local box rights and user-time

902#

4.0.3 Error Messages

The upper display usually shows LOCAL, when there is no other information on dis ­play. ERROR in the upper display:

1. Incorrect local command or key-entry

TDP-40E3_fm5.fm

Read the local box number (xxxx) and the phone identi­fication code (yyyyy)

- xxxx yyyyy

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Product: TDP-40-TN2 (Delta) / Local

28.1.1999

2. Fault in EEPROM programming

3. EEPROM input entry error

- input data string too long

- incompatable characters in entry

-carrier wave levels to save are in wrong order of magni­tude

- basic band limits to save are incorrect

-LOCAL BOX WITHOUT RIGHTS TO PROGRAM e.g.
SUBSCRIBER NUMBER

4.

Loop test failed to find required response in specified­time

UNKNOW in the upper display:

Unknown local command

LOCAL in the upper display when turning on power, although there is no local box
connected:

Subscriber number not programmed
Date of sale not programmed

BATT MEMO in upper displa y when turning on power:

battery type not recognised
battery pack connections loose or
battery pack damaged

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5.0 TUNING INSTRUCTIONS

Tuning Instructions

Necessary equipment: Local adapter, Local box, radio communication tester, multi­meter.

5.0.1 Watchdog Activation

This operation will reset all settings !! Perform on ly when changing CPU.

- Connect I201 pin 25 (MODB) to ground and turn power ON. Remove the
jumper and turn the power OFF.

- Check: Local 11 # cop test.

If result is WD FAIL or the phone jams, the activation must be repeated.

Product: TDP-40-TN2 (Delta) / Tuning Instructions

28.1.1999

- Local 0 #

5.0.2 Battery Voltage Calibration

- Adjust the operating voltage to 6.5 V, measuring from the OS-module battery
contacts.

- Local 214 #, check that "BT65V" is in the display.

- Local 0 #.

5.0.3 TX-Power Level Adjustment

- Local 0 #, 31 #, 39 #, and use the +/- keys to adjust the power to 180 mW
(22.6 dBm), and confirm with the F key; adjust wit h the +/- keys to 1 .2 W (30.8
dBm), and confirm with the F key.

- Check that the current consumption is less than 900 mA.

- Local 0 #.

5.0.4 Frequency Adjustment

TDP-40E5_fm5.fm

- Local 36 #, 31 # LTXON, 45* AFCOFF, 452 #, us e the +/- keys to adjust the
frequency as close as possible to 455.225 MHz, and confirm with the F key.

- The adjustmen t can also be done b y enter ing a 5 digit value a nd savin g it w ith
the F key.

If the tuning val ue ne ed s to be ch anged more than 2500 units, the TCXO m ust
also be tuned.

- Local 0 #.

1

Product: TDP-40-TN2 (Delta) / Tuning Instructions

28.1.1999

5.0.5 Learning the 1 kHz Frequency Shift

- Local 0 #, 36 #, 31 #, 450 #

Adjust the transmitter to 455.226 MHz with the +/-keys and store with the F
key.

- Local 0 #.

5.0.6 Tuning the Receiver

- Feed an RF-gen 1 kHz / 3 kHz dev. at -50 dBm on the mid-channel.

- Local 0 #, 36 #, 22 #, RXAON, 201 # 6

- Use the +/- key s to adjust the audio level readin g to 220 (+/-10) mVrms or
622 (+/-30) mVpp, store with the F ke y, press the C key.

- Change the RF level to -113 dBm.

- Check the sensitivity: mid-channel (Local 36#), low channel (Local 35#), and
high channel (Local 37#). Minimum sensitivity 20 dB sinad (CCITT).

- Local 0 #

5.0.7 Fsk-Split Level Programming

- Local 0 #, 36 #, 22 #

- Feed an RF-gen. 1 kHz / 350 Hz dev. at -50 dB on the mid-channel.

- Local 70 #, wait until the display stabilises, store with the F key.

- Check 70 *, display shows the stored value.

- Local 0 #

5.0.8 Rssi-Level Programming

- Set the RF-gen on the mid-channel at -58 dBm.

- Local 0 #, 36 #, 38 #, and wait until the displayed value stabilises, and press
the F key.

TDP-40E5_fm5.fm

- Change the RF level to -68 dB and wait un til the displayed value stabilises,
and press the F key.

- Change the RF level to -93 dBm, press the F key.

- Change the RF level to -103 dBm, press the F key.

- Change the RF level to -115 dBm, press the F key.

- Check programming with Local 38 *, the stored values are displayed.

- Local 0 #.

2

5.0.9 TX Audio Tuning

- Local 0 #, 36 #, 31 #, 21 #

- Feed via the local box GEN connector a 1 kHz sine signal at 4.0 Vrms, and
set the local box switch to the SERVICE position.

- Local 215 # (store mic level)

- Change the frequency to 2 kHz at 4 Vrms.

- Local 201 # 4 and use the +/- keys to set the deviation to 4.55 (+/- 0.15) kHz,
confirm with the F key.

- Change the signal frequency to 1 kHz at 400 mVrms.

- Press the 1 key and use the +/- keys to set the deviation to 3.00 (+/- 0.05)
kHz, confirm with the F key, and press the C key.

- Local 0#

Product: TDP-40-TN2 (Delta) / Tuning Instructions

28.1.1999

Checking the deviation limiter:

- Local 36#, 31#, 21#

- Local 217#, change the level to 4 .0 Vrms, frequency still 1 kHz. Use the +/­keys to set the deviation above 3.7 kHz, and confirm with the F key.

- Local 0 #.

5.0.10 Microphone Level Adjustment

- Feed a 1 kHz sine signal acoustically to the microphone at a normal sound
level.

- Enter local 0 #, 21 #, press HF, 31 #, 201 # 7

- Use the +/- keys to set the d eviat ion to 3.0 0 (+/- 0 .05) kHz, co nf irm with th e F
key, press the C key.

- Local 0 #

5.0.11 FFSKT Deviation Adjustment

- Local 0 #, 24 #, 31 #, 201 # 9

- Use the +/- keys to set the deviati on to 4.20 (+/- 0.05) kHz and pre ss F and C
keys.

- Local 0 #

5.0.12 FII Deviation Adjustment

- Set an RF-gen. mod. freque ncy 4 kHz / 600 Hz deviation, at - 50 dB m.

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Product: TDP-40-TN2 (Delta) / Tuning Instructions

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- Local 0 #, 31 #, 23 #, 201 # 0

- Use the +/- keys to set the deviation to 600 (+/- 20) Hz, press F and C keys.

- Local 0 #.

5.0.13 DTMF Deviation Adjustment

- Local 0 #, 31 # , 2 1# , 2 03 # , choose 941 Hz with the +/- keys, an d pr ess th e F
key.

- Local 201 # 8 and set the devi ation with + /- keys to 1.80 (+ 0.20) kHz , press F
and C keys.

- Local 0 #.

5.0.14 Subscriber Number Programming

- Local 0 #, 2 #, enter 7 digit number (and 3 digit password if needed) and
press the f key.

- Check with 2 *.

- Local 0 #

5.0.15 Select Battery Type

- Local 95 #

- Use the +/- keys to select the battery type in use, and press the F key.

- Check with 95*

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Product: TDP- 40-TN2

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6.0 PHONE’S CONSTRUCTION

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6.1 MECHANICS

6.1.1 Front Cover

MC1383 Grey
MC1384 Green
MC1382 Red
MC1381 Blue
MC1351 Black

6.1.2 Back Cover

Product: TDP- 40-TN2

28.1.1999

MC1393 Grey
MC1394 Green
MC1392 Red
MC1391 Blue
MC1352 Black

6.1.3 Type plate

MC1302

6.1.4 Antennas

6.1.4.1 Helical

YA0055

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6.2 LOGIC / AUDIO

OA0300 Processor

Processor

6.2.1 General

The entire radio audio and processor functions are found within a single PA0300
board, through which all other modules are connected. Only the RF signals have a
different path.

The processor controls the audio and radio modules, internal devices and external
accessories.

Product: TDP-40-TN2 (Delta) / OA0300 Processor

28.1.1999

The processor includes:

CPU 68HC11A1 8-bit, 8 A/D, 512*8 EEPROM, 256*8 RAM, I/O
PROM 27C010 128*8 EEPROM, program memory
RAM 4465 8K*8 CMOS RAM, number memory

ASIC IA8001
TXLOG TX power adjustment and control
SIS 68HC1 1A8

32 pcs out and 14 pcs inp , 3 series out, 3 an alog
out, frequency counter, clock

SIS function, 8k ROM, 512*8 EEP ROM, 256*8
RAM

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Product: TDP-40-TN2 (Delta) / OA0300 Processor

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6.2.2 Connectors:

6.2.2.1 Radio Base Connector (printed circuit)

1 V-CHARGE battery charging voltage IN 2A
2 V-CHARGE battery charging voltage IN 2A
3 VB 6 V output to accessories 0.5A

4V-PROG
5

EXT-

MIC+PWR
6GND
7GND

8

EXTERPX+

HOOK
9 PTTX
10 I2CINTX i2c interrupt, radio input 0/5V

11 SCLX i2c clock 0/5V
12 SDAX i2c data 0/5V
13 TXDX rs232 OUT 0/5V
14 RXDX rs232 IN 0/5V
15 EXTIOX reserve 0/5V

16 CHGCONTX charging control voltage

FLASH PROM programming
voltage IN

external audio from the
microphone

external audio to the speaker
amplifier

external PTT, radio input 0V
active

0.5/12 VDC
400 mVrms

220 mVrms
0/5V

0...5VDG
analog

The power switch is connected to the mic-line so that the switch grounds the mic­line.

The Extl-hook switch is connected to the erp-line so that the erp-line dc level drops
when the handset is in its holder.

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6.2.2.2 RF-Module, 24 pin Connector

1 SLEEP RF-module sleep control 0/5V
2 TXVCO tx vco start up 5V
3 VB power supply from the battery

(RF-module battery connector ) 6V
4 VB power supply from the battery
5 VB power supply from the battery
6GND
7 GND
8GND
9 SDATA RX and TX data to the splitter 0/5V
10 SCLK RX and TX data clock 0/5V
11 STE TX divider enable pulse 5V
12 SRE RX divider enable pulse 5V

13 RSSI
14 RXAUDIO RX audio signal 100mVrms
15 450KHZ 450kHz for AFC measurement

16 AFC
17 TXAUDIO TX audio mo dul a ti on 550mVrms

18 TXPWR TX power control, analog 0-5V
19 TXSENSE not connected
20 TXBIAS TX initiate, 0V = TX OFF 0/5V
21 BNTC battery temperature data, analog
22 BSENSEX input memory data-line
23 SPRIO no function
24 DTUNE not connected

RX signal strength indicator, analog

0-5V

frequency compensation control

voltage

approx.1Vpp
approx 2.5V

6.2.2.3 Keyboard (internal)

1 KEY-INP4 key matrix input 0/5V
2KEY-INP0
3KEY-INP3
4KEY-INP2
5KEY-INP1
7 PWS power switch
6GND
8 KEY-OUT0 key matrix output 0/5V
9KEY-OUT1
10 KEY-OUT2
11 KEY-OUT3

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6.2.2.4 Display Module

1 VCC
2 LIGHTKEY light control, 6V = ON 0/6V
3SDAL
4SCLL

GND

6.2.3 Circuit Diagram

The processor circuit diagram is split into three parts. The first diagram shows the
module connector pins and power supply. The second diagram shows all the pro­cessor functions. The whole audio is in a single diagram. Signals in the circuit dia­grams have been given names, and signals with the same name are connected
between diagrams.

Product: TDP-40-TN2 (Delta) / OA0300 Processor

28.1.1999

6.2.3.1 Circuit Diagram Contents

OA0300A0 power supply an d connectors
OA0300B0 cpu, ASIC, RAM, EPROM, SIS-function
OA0300C0 audio parts (filters, modem, DTMF, compander)

6.2.3.2 Numbering of Components

The different modul es making up the radi o unit have al l their componen ts unambi gu­ously numbere d. An individual component number is used only once:

OA0300A0 has numbers 001...199
OA0300B0 has numbers 200...299
OA0300C0 has numbers 300...399

6.2.4 Functions

6.2.4.1 CPU

I201 is itself a processor circuit. It comprises CPU, 512*8bit EEPROM, timers, A/D
converters, and both series- and parallel I/O lines. The clock oscillator is located in
the audio circuit and provides the CPU with a 5.5296 MHz clock signal. The CPU
divides this by 4 to get timing signal E.

When the processor is operating, RES ET = 5V, VCC = 5V, E = 1.3824 Mhz, AS, R /W
and A0...A15 pulses should be 0/5V (no intermediate values, only 0 or 5V).

6.2.4.2 Memories

Memory- and external I/O-circuit address coding is done with the ASIC circuit 203.
The circuit options CSR, CSP, and CSIO are 0-active.

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Product: TDP-40-TN2 (Delta) / OA0300 Processor

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The program memory is in 128k*8 EPROM. The program uses the addresses
2100H...FFFFH. Page selection makes available another similar memory block.

RAM-memory is 8k*8 CMOS RAM at the addresses 0000H...1FFFFH. RAM
receives its power supply from its own regulator which is always operating, even
when the radio is in OFF state.

6.2.4.3 The Modem

The FFSK modem is located in the audio circuit. The modem is connected to the
CPU by a series line, input to synchronised po rt, and transmission is controlled by
an ASIC series output. The modem gives a 1200 Hz signal RXCLK to the processor
and TXCLK to ASIC. Th er e i s a da ta detector within the modem, the spe ed of which
is controlled by C 395 . D 37 6 se rv es a s the da ta detector,and the CPU A/D co nve rt er
measures the level of acceptance. The same detector also serves to control the HF
function.

6.2.4.4 AFC

The AFC function is performed by an internal ASIC frequency counter. A 450 kHz
intermediate frequency is amplified to a square-wave form by Q109. The frequency
is adjusted by ASIC pulse frequency modulated signal D/A 0, which is integrated by
C284. This approx. 2.5V DC voltage is fed to the synthesiser AFC pin.

6.2.4.5 Sleep Timer

The phone put s t he central functions to sleep for a t ime. Although everything seems
normal to the user, most of the functions are closed down. The radio- and audio­units are closed down complete ly. The processor still has a power supply, but the
processor is halted an d has min imal power consu mption. O nly the ASIC cir cuit sleep
timer and its 32 kHz crystal oscillator remain in active mode. The phone is "woken
up" by interrupting the sleep timer or by changing the keyboard state. The sleep
timer 32 kHz clock freqency is produced by the oscilla tor made by crystal X203.

6.2.4.6 Warm Start

C221 and R221 measure the length of a voltage break. The voltage drops during a
break, after which it is measured by the A/D convertor. The time constant is approx.
10 s . Thus a "warm start" is detected.

6.2.4.7 RESET

The processor voltage regulator ERROR output resets (stops) the processor and
zeroes the controls when the battery voltage drops below 5V. As the voltage rises
again, the processor restarts.

6.2.4.8 Power Switch

The power switch (PWS) is grounded, and directs the regulator I101 to conduct
when pressed. The program commences and checks the PWRSW line to ensure

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that the switch is being press ed, and set s hold on the regu lator fo r the PW RON line .
When the switch is depressed for a longer time, the program directs power to the
PWROFF line. D uring a sh ort volt age br eak, C124 and R123 rememb er the pr evious
control, i.e. fet Q101 conducts again when the voltage is restored within 10 seconds.
The switch-fet also serves as a watch-dog should the voltage drop or processor
error-state continue; after 10 seconds, the radio will shut down completely.

Note! The RAM and ASIC circuits have their own regulator connected to the battery
to ensure an uninterrupted power supply. RAM power supply is ensured during a
battery-pack change by the battery A100.

6.2.4.9 Battery Voltage Measurement

The battery voltage is measured by an A/D converter. The converter 256 step con­version scale is not sufficient as it stands, so the measured range is restricted to

5...8V by the operational amplifier I206. The reference voltage for the measurement
is provided by the processor regulator 5V supply. Calibration is done by the program
against a precisely known battery voltage.

6.2.4.10 I/O ports

The ASIC I/O ports PA...PF are 8-bit hold circuits. DATA is fed to the addressed out­put. When the RESET line is down (0V) all the ASIC ports are zeroed (0V). As
RESET rises again, all of the tw o-way I/O ports are inputs until the prog ram sets
them to the desired state. With the radio in OFF state, RESET is down so all of the
controls are also down alth ou gh ASI C is sti l l provi de d wi th oper at ional voltage
(VRAM).

6.2.4.11 Tone Generator

Tones for the internal buzzer are provided by the ASIC tone generator. The fre­quency can be programmed between 400...4000 Hz. The wave form is square.

6.2.4.12 SIS

SIS functions are provided by a mask-programmed single chip processor I202
(68HC11A8). It communicates with the host processor via ASIC with an RS232 bus
(5V levels). The circ uit operation is n ot externally visi ble as it is a single-chip solu­tion. User specific information is stored in EEPROM which CANNOT be read from
outside the chip. All external attempts to read the information clear both EEPROM
and RAM (fill with FF).

6.2.4.13 Power Adjustment

The transmitter control logic switches TX power and also adjusts it to the correct
level. The TXVCO signal sets the transmitter to ready-mode. Power is controlled by
the ASIC analog output D/A 1. It is a pulse freque ncy modulated ou tput whi ch is con­verted to a DC voltage by integrat ing it with C287. 0V corresponds to "no power"
state, and 5V to m axi mum t ra nsm itte r power. The power l eve ls a re ca li b ra ted b y th e
program at the source of measurement.

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6.2.4.14 Charging Control

The charger is controlled by the program. The charger is detected by a voltage at the
VCHARGE pin. The charging current (0...2A) is controlled by an analog (0...5V)
CHGCONT signal which comes from the ASIC D/A 2 pulse frequency output. Charg­ing is governed by the battery and radio temperatures, battery voltage, and time
measurement. D104 prevents the battery voltage reaching the charger.

6.2.4.15 Temperature Measurement

The radio has two separate temperature sensors, one within the battery pack, and
the other within the radio module. Inside the radio the NTC resistor R209 voltage is
measured by the processor A/D converter. This value is converted by a programmed
table to a temperature reading. The battery pack temperature is calculated in the
same way.

6.2.4.16 Real-time Clock

A real-time clock is provided within ASIC to give the time and date. The alarm func­tion can also be programmed to the ALARM pin. This will initiate the processor regu­lator and thus also the radio although it was in OFF state.

The ASIC circuit has a continuous power supply and the 32 kHz clock crystal runs
constantly. Not even the RESET line stops the clock. If the power supply has
dropped too low, the clock will need to be reset with the radio butons (from the
menu).

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Audio

6.2.5 Function Description

OA0300 Audio

The audio module comprises the following functions:

1. TX-audio signal handling

2. RX-audio signal handling

3. Fii signal handling

4. FFSK modem

5. DTMF generator/receiver

6. Signal lev el detectors

Product: TDP-40-TN2 (Delta) / OA0300 Audio

28.1.1999

7. Compander

8. Alarm tone buzzers

The audio functions are for the main part located in a single circuit SC11370. This
chip from Sierra Semiconductor is controlled by a n i2c bus. It is possible to shut
down parts of the circuit, one block at a time to minimise power consumption. The
circuit provides six separate clock frequencies for the processor, or alternatively the
clock frequency can be switched off entirely.

In addition to the audio circuit, the audi o module uses a Phillips Semiconductor low­current compander SA578, an d for alarm to nes the ASIC tone gene rator and Citizen
buzzers.

6.2.5.1 TX-Audio

The input from the microphone is fed to the audio circuit I300 pin 36, which is an
operational amplifier inverting in put. The operati onal amplifier gain is set by resistors
R304 and R306. The amplifier is connected as a low pass filter. After the filter, the
signal is fed to the programmable amplifier GC1 (gain 0...+6dB), which sets the
microphone signal to the correct level. After GC1 comes switch t1, which selects
either the internal microphone or an audio si gnal via the b ase connector X- EXT pin 5
from an external device (HF-microphone, user equipment). The external audio sig­nal is fed to the amplifier I310, in which the larg e signal peaks are limited (pre-lim­iter). The power supply for I310 can be switched off with the COMPWRON control
(COMPWRON = 0). The resistor s R 313 and R316 ar e use d to ad ju st the sig nal to a
suitable level for the audio ci rcut, and the sig nal is fe d to the audio circuit p in 35. The
switch is controlled by the EXTON control so that the internal microphone is con­nected when EXTON = 0, and the external signal when EXTON = 1. From the
switch, the signa l is fed th rough a hi gh pass filter F1, and then to compress or I330 C,
which can be by-passed using the audio circuit internal switch t3, which in turn is

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directed by the COMPOFF control. The c ompressor is by-passed when COMPOFF
= 1. From the compressor, the signal is fed through a -6 dB pre-amplifier F2 to the
programmable amplifier GC2 (gain 0...6dB) which regulates normal deviation. After
the normal devi ation regulation, the signal is fed to an amplitude limite r, and then on
to the 4 kHz band-block filter F3 A. A fte r the filte r comes switch m6 , which mut es t he
TX audio signal using the TXMUTE control. From the switch, the signal is fed to the
programmable amplifier GC3 (gain -17...+4 dB), which is used in conjunction with
the HF function.After GC 3 , th e si g na l is filtered with a 3 kHz low pass fil ter F3B , a nd
then the signal level, maximum deviation, can be regulated with the programmable
amplifier GC10 (gain 0...+6 dB). The adjust able amplifier GC7 (gain 0 ...+4 B) is used
to automatically regulate the signal level. The TX signal is then fed to the X-RF con­nector pin 17.

6.2.5.2 RX-Audio

The RX signal coming from the receiver through the X-RF pin 14 is fed to the audio
circuit I300 pin 21. Inside the circuit, the signal is fed to the programmable amplifier
GC9 (gain 0...+6 dB), which regulates the incoming signal from the receiver to the
correct level. The signal is next passed through a -6 dB muting filter F5 to the filter
chain formed by the high-pass filter F7A, the band-rejection filter F6, ja low-pass fil­ter F7B. The signal passes from the filter s through the switch m19, which is op erated
by the RXMUTE control, from circuit I3 00 pin 23 to the expander I330B. The
expander can be by-passed using the switch t23 within the audio circuit, which is
operated by the EXPOFF control. When EXPOFF = 1, the expander is by-passed.
From the expander, the signal is fed back to circu i t I300 pin 22.

Inside the circuit, the signal passes through switch t23 to the programmable ampli­fier GC8 (gain -8...+20 dB), which adjusts the volume. After the volume control, the
signal is fed to t20 and t21 . The signal is dire cted to the earp hone by the EARO N = 1
control through switch t20 to the earphone amplifier and on to the earphone. The
signal can be directed to an external device, by the EXTLSON = 1 control thr ough
switch t21 and the amplifier, and out of the circuit I300 from pin 24 to the base con­nector X-EXT pin 8.

6.2.5.3 FII Signal

The NMT system uses the FII signal to check the radio path quality. This approx. 4
kHz signal is split from the RX- audio si gnal aft er the adjust abl e amplifi er GC9 a nd is
filtered through the band-pass filter F8. The signal level is regulated by the program­mable amplifier GC 6 (gain +2..+8 dB) and is passed through switch t11, which can
be operated by the FIION control, to be summed with the TX-a udio signal before the
programmable amplifier GC10.

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6.2.5.4 FFSK Modem

The FFSK data signal to be transmitted is passed through a +6 dB pre-amplifier F10
to the programmabl e amplifier GC5 (gain 0. ..+6 dB), wh ich adjust s its l evel. The dat a
signal is switched usi ng m10 , which i s ope rated by the FFS KDTMFS EL contro l. The
data signal is summed with the TX-audio signal by the summer between GC3 and
the low pass filter F3B.

The received data signal is sp lit from the RX-au dio signa l after the -6 dB mu ting filt er
F5 and is fed to the FFSK receiver and data detector. The data detector speed is
determined by the external condenser C395.

The modem is connected to the CPU by ser ies l ines, the r eceiver to a synchronised
gate, and transmission is directed to an ASIC series output. The modem provides a
1200 Hz clock signal RXCLK to the processor and TXCLK to ASIC.

6.2.5.5 The DTMF Generator/Receiver

The DTMF generator p rovides al l sixteen stand ard DTM F tones, an d each in dividual
frequency separat ely . The ge nerator is used to p roduce both key- and alarm-tones in
a car installation, and enable numeric message transmission during a call.

Key- and alarm-tones are taken from the generator to switch t14, which is operated
by the DTMFRXON control, and is the summed with the RX-audio signal before the
volume control GC8. After the volu me co ntro l th e signa l is ro ute d throu gh th e switch
t21 to the aplifier, and then out from the circuit pin 24 to the connector X-EXT pin 8.
Switching is directed by the EXTLSON control.

When transmitting a numeric me ssage, the DTMF tones produced by the generator
are fed through the programmable amplifier GC4 (gain 0...+6 dB) to the switch t2,
which is operated by the DTMFTXON control , and is summed with the TX-audio sig­nal after the filter F1.

The DTMF receiver takes in numeric messages sent to the phone. When the
receiver has captured a received number, the STD line rises to 5V, and the number
can be read through the I2C bus.

The route to the DTMF receiver splits from the RX-audio signal after the filter F5,
through switch t16 and on through switch t12.

In addition, the DTMF re ceiv e r is used to r ece ive DTM F tones from a fax connected
to the line converter or from a conventional fixed-line telephone. In this case the
DTMF tones from the E XTMIC connector passes alo ng the TX-aud io signal p ath and
splits from it before the compressor to switch t15, which is operated by the
ANSLOOPON control. From the switch, the DTMF tones are passed to switch t12
and on to the DTMF receiver.

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6.2.5.6 Signal Level Detectors

Signal level detectors are required with the HF-function to measure the transmitted
and received audio signal level, and to study the data signal level. Measurement is
done by rectifying the signal, and the resultant DC voltage is read by a phones pro­cessor A/D converter. Rectifying is done by t wo operati onal amplifie rs from the audio
circuit and external diodes.

The transmission side audio signal is taken from the I300 pin 33 to pin 31, which is
an operation ampl ifier inve rting i nput. Th e signa l comes ou t of pin 3 0, and i s rectifi ed
by the diode D326 and filtered by the capacitor C326. The DC voltage (MICDET) is
taken to a processor A/D converter, which measures the level.

The receiver side audio signal and data signal are taken from I300 pin 23 to pin 27,
which is an operational amplifier inverting input. The signal comes out of pin 28 and
is rectified by diode D376 and filtered by the capacitor C374. The DC voltage (ERP­DET) is taken to a processor A/D converter, which measures the level.

6.2.5.7 Compander

The audio signal signal-to-noise ratio is improved by using the compander. The
transmission side signal is comressed by a 2:1 ratio, and the signal is expanded in
the receiver by the inverse 1:2 ratio. The compander specifications are outlined in
the CCITT recommendation Rec. G.162.

The compander circuit is a Phillips Signetics SA578D. The circuit has low power
consumption in operation, and additionally, can be powered down by the external
COMPWRON control (CPMPWRON = 0).

6.2.5.8 Alarm Buzzer

Tones for the internal alarm tones are provided by the ASIC tone generator, from
which the square wave is brought by the TONE signal to the base of the transistor
Q395. The alarm tone volume is adjusted by the BUZVOL0 signal fed to the transis­tor Q396, and the BUZVOL1 signal fed to the transistor Q394. EX-BUZZ is included
only in the loudest (HIGH) levels.

LEVEL BUZVOL0 BUZVOL1 TONE
HIGH 0 1 ON
MEDIUM 1 0 ON
LOW 0 0 ON
SILENT 0 0 OFF

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6.2.6 Audio Module Tuning Instructions

6.2.6.1 TX-Audio

- feed a 1 kHz sine signal of 4.0Vrms to connector pin 5 (via local box, GEN­connector)

- enter 0 # and 21 # and 215 # (read phone level)

- change the signal frequency to 2 kHz at 4.0Vrms

- if the RF module is present, enter also 31 #

- if the RF module is not present, connect an oscilloscope to the X-RF
connector pin 17.

- enter 201 # 4 and use the +/- keys to adjust the oscilloscope to show

2075...2125mVpp and press the F key. If the RF module is present, set the
deviation to 4,5...4,7 kHz and press the F key.

- change the input sine signal to 1 kHz at 400mVrms.

- press 1 and use the +/- keys to adjust the oscillo scope to show

1510...1530mVpp and press the F key. If the RF module is present, set the
deviation to 2,95...3,05 kHz and press the F key.

- press the C key.

Check the deviation limiter as follows and tune if necessary:

- change the signal level to 4.0Vrms keeping the frequency at 1kHz. If the
deviation does not exceed 3.7 kHz, enter 217 # and raise the tuning value
with the + key one step at a time unt il the deviation rises above the limit, and
press the F key. If the deviation is already above 3.7 kHz, press the F key.

- change the frequency to 650 Hz. If the deviation exceeds 4.7 kHz, use the +
key to increase the tuning value one step at a time until the deviation drops
below the limit, an d p re ss the F key. If th e d eviation is already below 4.7 kHz,
press the F key.

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14

- feed 1 kHz sine wave acoustically at a normal noise level into the
microphone.

- enter 0 #, 21 # and press the HF key. If the RF module is present, enter also
31 #.

- enter 201 # 7 and use the +/- keys to adjust the oscilloscope to show

1510...1530mVpp, and press the F key. If the RF module is present, set the
deviation to 2,95...3,05 kHz and press the F key.

- press the C key.

6.2.6.2 FFSKT

- if there is no RF module, connect the oscilloscope to the connector X-RF pin

17.

Product: TDP-40-TN2 (Delta) / OA0300 Audio

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- enter 0 # and 24 #. If the RF module is present, enter also 31 #.

- enter 201 # 9 and adjust the oscilloscop e to sho w 21 20 ...2140mVpp and
press the F key. If the RF module is present, set the deviation to 4,15...4,25
kHz and press the F key.

- press the C key.

6.2.6.3 DTMFTX

- if there is no RF m od ule, connect the oscilloscope to the connecto r X- R F pi n

17.

- enter 0 # and 203 # and use the +/- keys to select 941 Hz and press the F
key. If the RF module is present, enter also 31 #.

- enter 201 # 8 and adjust the oscilloscope to show 600...620mVpp and press
the F key. If the RF module is present, set the deviation with +/- keys to
1,40 kHz (+ 0.20 kHz), and press the F key.

- press the C key.

6.2.6.4 RX-Audio

XA0300E4_fm5.fm

- feed a 1 kHz sine signal of 100mVr ms to the connecto r X-RF pin 14 . If the RF
module is present, feed a 1 kHz modulated signal with 3 kHz deviation, RF
level -53 dB, to the antenna connector.

- connect a voltmeter or oscilloscope to the connector X-EXT pin 8 (local box,
METER connector).

- enter 0 # and 22 #.

- enter 201 # 6 and use the +/- keys to adjust the voltmeter to show

210...230mVrms (555...615 mVpp) and press the F key.

- press the C key.

15

6.2.6.5 FII

- feed a 4 kHz sine signal of 20mVrms to the X-RF connector pin 14. If the RF
module is present, feed a 4 kHz modulated signal with 600 Hz deviation, RF
level -53 dB, to the antenna connector.

- if the RF module is not present, connect an oscilloscope to the connector X­RF pin 17.

- enter 0 # and 23 #. If the RF module is present, enter also 31 #.

- enter 201 # 0 and use the +/- keys to adjust the oscilloscope to show
300mVpp and press the F key. If the RF module is present, set the deviation
to 580...620 Hz and press the F key.

- press the C key.

6.2.7 Audio Locals

Product: TDP-40-TN2 (Delta) / OA0300 Audio

28.1.1999

0 # AUDIO RESET (SET AUDIO CHIP TO DEFAULT VALUES)

18 # DTMF LOOP TEST

20 # AUDIOPOWER SWITCHED ON
20 * AUDIOPOWER SWITCHED OFF

21 # TX AUDIO PATH ON (EXTMIC INPUT)
21 * TX AUDIO PATH OFF

22 # RX AUDIO PATH ON (EXTERP OUTPUT)
22 * RX AUDIO P ATH OFF

23 # FII (SAT) LOOP ON
23 * FII (SAT) LOOP OFF

24 # TX FFSK ON
24 * TX FFSK OFF

25 # COMP ON
25 * COMP OFF

200 # AUDIO GATE CONTROLS

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1.select gate (0...b) by +/- button

2.select bit by buttons 0...7

3.select state of the bit by 0 or 1

See the list of gate controls (file: port 2).

201 # AUDIO TUNING COMMANDS

1. NORMAL DEVIATION ADJUST (GC2)

2. HANDSFREE TX ATTENUATOR (GC3)

3. DEVIATION CORRECTION (GC7)

4. MAXIMUM DEVIATION ADJUST (GC10)

5. ERP VOLUME CONTROL (GC8)

6. RX AUDIO LEVEL ADJUST (GC9)

7. MIC SENSITIVITY ADJUST (GC1)

8. TX DTMF LEVEL ADJU ST (GC4)

9. TX FFSK LEVEL ADJUST (GC5)

0. FII (SAT) LEVEL ADJUST (GC6)

Tune by +/- button (steps 0...15).

203 # DTMF GENERATOR CONTROL (SINGLE TONE)

DTMF OFF

697 Hz 1209 Hz
770 Hz 1336 Hz
852 Hz 1477 Hz
941 Hz 1633 Hz

XA0300E4_fm5.fm

Select by +/- button and push F button.

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204 # RX AND TX AUDIO PATHS ON

210 #

211 #

212 #

213 #

214 #

215 #
215 *

216 #

+ 55 Co TUNING

+ 25 Co TUNING

0 Co TUNING

- 25 Co TUNING

STORING THE VALUE OF BATTERY VOLTAGE A/D CON­VERTER

STORING THE VALUE OF MICROPHONE LEVEL A/D CON­VERTER

CHECKING THE VALUE OF MICROPHONE LEVEL A/D CON­VERTER

SET THE FIRST DEVIATION CORRECTION LEVEL (REDUCE
DISTORTION GC2)

217 # SET DEVIATION CORRECTION LIMITS (GC7)

# 4 0 0
# 4 0 1

6.2.8 Audio Gate Controls

addr bitnr. name 0 1 fixed

00H 0 t1 EXTOFF EXTON

1 t2 DTMFTXOFF DTMFTXON
2 m60 TXMUTE ON TXMUTE OFF
3 m61 0
4t7 0
5 m100 FFSKTXOFF FFSKTXO
6 m101 0
7 t11 FIIOFF FIION

COMPWROFF
COMPWRON

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01H 0 t13 FFSKBPOFF FFSKBPON

1 t14 DTMFRXOFF DTMFRXON
2 t15 ANSLOOPOFF ANSLOOPON

3 m190 0 LPF BY- 1 RX 0 LPF 1 LPF
4 m191 0 PASSED 0 MUTED 1 ACTIVE 1 ACTIVE

5 t20 EAROFF EARON
6 t21 EXTLSOFF EXTLSON
7 t22 OPAINP GND OPAINP REF

02H 0-3 GC2[0-3] NORMDEVPGA06

4-7 GC3[0-3] HFTXATTPGA1704

03H 0-3 GC7[0-3] MAXDEVLOPGA04

4-7 GC10[0-3] MAXDEVHIPGA06

04H 0-3 GC8[0-3] ERPVOLPGA2010

4-7 GC9[0-3] RXAUDLEVPG A06

05H 0 Pref12 AUDREFOFF AUDREFON

1 Pref3 MODREFOFF MODREFON
2 Prespwr FDETPWROFF FDETPWRON
3 Frxpwr FRXPWROFF FRXPWRON
4 Ftxpwr FTXPWROFF FTXPWRON
5 Drxpwr DRXPWROFF DRXPWRON
6 Dtxpwr DTXPWROFF DTXPWRON
7 Aupwr AUDPWROFF AUDPWRON

06H 0 Tx[0] DTXCONT0 DTXCONT0

1 Tx[1] DTXCONT1 DTXCONT1
2 Tx[2] DTXCONT2 DTXCONT2
3 Tx[3] DTXCONT3 DTXCONT3
4 ATTPB PREDTMFOFF PREDTMFON
5 Rtone DLOWDISABLED DLOWENABLE
6 Ctone DHIGHDISABLED DHIGHENABLE
7

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07H 0 Xsel[0] CLOCKSEL Xsel[2:0] 010 = DIV 8 101 = DIV 2

1 Xsel[1] CLOCKSEL 000 = OFF 011 = DIV 4

110 = DIV

1.5

2 Xsel[2] CLOCKSEL 001 = DIV 2 100 = DIV 3 111 = DIV 1

3 t23 EXPON EXPOFF
4 Uopwr OPAPWROFF OPAPWRON
5 Fivep FIVEPWROFF FIVEPWRON
6 Lp255 LBLOW = 3 KHZ LBLOW = 2.5 KHZ
7 t8 TXDATASEL = FFSK TXDATASEL = TXDATA

08H 0 t3 COMPON COMPOFF

1 t4 PRETXON PRETXOFF
2t5 LIMON LIMOFF
3 t9 PREFFS KON PREFFSKOFF

4 t12 RXDTMFSEL = DTMF

RXDTMFSEL =

LINECONV
5 t16 DEFFSKON DEFFSKOFF
6 t17 DERXON DERXOFF
7 t18 RXNOTCHON RXNOTCHOFF

09H 0-3 GC1[0-3] MICSENS PGA06

4-7 GC4[0-3] DTMFLEV PGA06

0AH 0-3 GC 5[ 0-3] FFSKTXLEV PGA06

4-7 GC6[0-3] FIILEV PGA06

0FH 0 Proff

1Sdet

discharge capasitor (time

const.)

bypass FFSK band-pass

filter
2Sw_dis 0

GC*[3:0]

0000

GC1,2,4,5,9,10

PGA06

0.0 -17.0 0.0 15.0 2.0

GC3

PGA1704

GC7

PGA04

GC8

PGA2025

0001 0.4 -15.6 0.3 20.0 2.4
0010 0.8 -14.2 0.5 25.0 2.8
0011 1.2 -12.8 0.8 -20.0 3.2

0
0

GC6

PGA28

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Product: TDP-40-TN2 (Delta) / OA0300 Audio

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0100 1.6 -11.4 1.1 -15.0 3.6
0101 2.0 -10.0 1.3 -10.0 4.0
0110 2.4 -8.6 1.6 -8.0 4.4

0111 2.8 -7.2 1.9 -6.0 4.8
1000 3.2 -5.8 2.2 -4.0 5.2
1001 3.6 -4.4 2.4 -2.0 5.6
1010 4.0 -3.0 2.7 0.0 6.0
1011 4.4 -1.6 3.0 2.0 6.4
1100 4.8 -0.2 3.2 4.0 6.8
1101 5.2 1.2 3.5 6.0 7.2

1110 5.6 2.6 3.8 8.0 7.6

1111 6.0 4 4.0 10.0 8.0

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6.2.9 Parts list

OA0300

CODE PART DESCRIPT. VALUE MANUF. TYPE

AB0001 A100 Lithium battery 3V 35mAh Matsushita BR-1225-1HC
AE0001 BUZ Buzzer 9x5,5mm 5V 25ohm 90dB Citizen CB-09GP
CF0471 C101 SMD capasitor 470 pF 5% 50 V NP0 Philips
CF0471 C102 SMD capasitor 470 pF 5% 50 V NP0 Philips
CF0471 C103 SMD capasitor 470 pF 5% 50 V NP0 Philips
CF0471 C104 SMD capasitor 470 pF 5% 50 V NP0 Philips
CF0223 C105 SMD capasitor 22 nF 10% 50 V X7R Philips
CF0471 C106 SMD capasitor 470 pF 5% 50 V NP0 Philips
CF0471 C107 SMD capasitor 470 pF 5% 50 V NP0 Philips
CF0471 C108 SMD capasitor 470 pF 5% 50 V NP0 Philips
CF0471 C109 SMD capasitor 470 pF 5% 50 V NP0 Philips
CF0471 C110 SMD capasitor 470 pF 5% 50 V NP0 Philips
CF0471 C111 SMD capasitor 470 pF 5% 50 V NP0 Philips
CF0471 C112 SMD capasitor 470 pF 5% 50 V NP0 Philips
CF0223 C113 SMD capasitor 22 nF 10% 50 V X7R Philips
CF0223 C114 SMD capasitor 22 nF 10% 50 V X7R Philips
CU1106 C122 SMD tantal 10uF/16V AVX TAJB106M016R
CU1106 C124 SMD tantal 10uF/16V AVX TAJB106M016R
CF0223 C125 SMD capasitor 22 nF 10% 50 V X7R Philips
CF0103 C126 SMD capasitor 10 nF 10% 50 V X7R Philips
CU1226 C127 SMD tantal 22uF/6.3V 20% 6x3.2mm Matsushita ECSTO JC 226R
CF0223 C128 SMD capasitor 22 nF 10% 50 V X7R Philips
CF0223 C165 SMD capasitor 22 nF 10% 50 V X7R Philips
CU1106 C166 SMD tantal 10uF/16V AVX TAJB106M016R
CF0103 C191 SMD capasitor 10 nF 10% 50 V X7R Philips
CF0102 C202 SMD capasitor 1 nF 5 % NP0 Philips
CF0223 C203 SMD capasitor 22 nF 10% 50 V X7R Philips
CF0223 C204 SMD capasitor 22 nF 10% 50 V X7R Philips
CF0223 C205 SMD capasitor 22 nF 10% 50 V X7R Philips
CF0223 C206 SMD capasitor 22 nF 10% 50 V X7R Philips
CF0223 C208 SMD capasitor 22 nF 10% 50 V X7R Philips
CU1106 C221 SMD tantal 10uF/16V AVX TAJB106M016R
CF0223 C222 SMD capasitor 22 nF 10% 50 V X7R Philips
CF0223 C224 SMD capasitor 22 nF 10% 50 V X7R Philips
CF0223 C242 SMD capasitor 22 nF 10% 50 V X7R Philips
CF0223 C250 SMD capasitor 22 nF 10% 50 V X7R Philips
CF0223 C251 SMD capasitor 22 nF 10% 50 V X7R Philips
CF0223 C256 SMD capasitor 22 nF 10% 50 V X7R Philips
CF0220 C281 SMD capasitor 22 pF 5% 50 V NP0 Philips
CF0220 C282 SMD capasitor 22 pF 5% 50 V NP0 Philips
CU1105 C284 SMD tantal 1uF/16V AVX TAJR105M016R
CH0105 C287 SMD capasitor 1uF/-20/+80%/16V TaiyoYuden EMK212 F105Z00T
CH0105 C288 SMD capasitor 1uF/-20/+80%/16V TaiyoYuden EMK212 F105Z00T
CU3475 C300 SMD tantal 4.7uF/10V 20% AVX TAJA475M010R
CF0101 C302 SMD capasitor 100 pF 5% 50 V NP0 Philips
CF0223 C304 SMD capasitor 22 nF 10% 50 V X7R Philips
CF0222 C306 SMD capasitor 2.2 nF 5% 50 V NP0 Philips
CF0680 C308 SMD capasitor 68 pF 5% 50 V NP0 Philips
CU1105 C309 SMD tantal 1uF/16V AVX TAJR105M016R
CF0223 C310 SMD capasitor 22 nF 10% 50 V X7R Philips
CF0101 C311 SMD capasitor 100 pF 5% 50 V NP0 Philips
CF0223 C312 SMD capasitor 22 nF 10% 50 V X7R Philips
CF0223 C313 SMD capasitor 22 nF 10% 50 V X7R Philips
CF0223 C314 SMD capasitor 22 nF 10% 50 V X7R Philips
CF0223 C320 SMD capasitor 22 nF 10% 50 V X7R Philips

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Product: TDP-40-TN2 (Delta) / OA0300

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CODE PART DESCRIPT. VALUE MANUF. TYPE
CU1105 C326 SMD tantal 1uF/16V AVX TAJR105M016R
CH0104 C327 SMD capasitor 100nF/25V X7R TaiyoYuden TMK212BJ104K00T
CH0105 C330 SMD capasitor 1uF/-20/+80%/16V TaiyoYuden EMK212 F105Z00T
CU1105 C332 SMD tantal 1uF/16V AVX TAJR105M016R
CU1105 C334 SMD tantal 1uF/16V AVX TAJR105M016R
CF0221 C335 SMD capasitor 220 pF 5% 50 V NP0 Philips
CH0105 C336 SMD capasitor 1uF/-20/+80%/16V TaiyoYuden EMK212 F105Z00T
CF0223 C338 SMD capasitor 22 nF 10% 50 V X7R Philips
CF0223 C340 SMD capasitor 22 nF 10% 50 V X7R Philips
CU1105 C350 SMD tantal 1uF/16V AVX TAJR105M016R
CH0104 C351 SMD capasitor 100nF/25V X7R TaiyoYuden TMK212BJ104K00T
CH0104 C352 SMD capasitor 100nF/25V X7R TaiyoYuden TMK212BJ104K00T
CH0104 C353 SMD capasitor 100nF/25V X7R TaiyoYuden TMK212BJ104K00T
CF0103 C355 SMD capasitor 10 nF 10% 50 V X7R Philips
CH0105 C360 SMD capasitor 1uF/-20/+80%/16V TaiyoYuden EMK212 F105Z00T
CF0101 C364 SMD capasitor 100 pF 5% 50 V NP0 Philips
CF0101 C365 SMD capasitor 100 pF 5% 50 V NP0 Philips
CU1105 C366 SMD tantal 1uF/16V AVX TAJR105M016R
CF0223 C368 SMD capasitor 22 nF 10% 50 V X7R Philips
CF0223 C370 SMD capasitor 22 nF 10% 50 V X7R Philips
CU1105 C374 SMD tantal 1uF/16V AVX TAJR105M016R
CF0223 C379 SMD capasitor 22 nF 10% 50 V X7R Philips
CH0105 C380 SMD capasitor 1uF/-20/+80%/16V TaiyoYuden EMK212 F105Z00T
CU1225 C382 SMD tantal 2.2uF/10V AVX TAJS225M010R
CF0222 C385 SMD capasitor 2.2 nF 5% 50 V NP0 Philips
CF0223 C386 SMD capasitor 22 nF 10% 50 V X7R Philips
CU1106 C388 SMD tantal 10uF/16V AVX TAJB106M016R
CF0223 C390 SMD capasitor 22 nF 10% 50 V X7R Philips
CF0223 C395 SMD capasitor 22 nF 10% 50 V X7R Philips
DS1070 D101 SMD diode pair 70V/100mA common cathode Philips BAV 70W
DS1070 D102 SMD diode pair 70V/100mA common cathode Philips BAV 70W
DS1070 D103 SMD diode pair 70V/100mA common cathode Philips BAV 70W
DY0034 D104 Schottky diode 40V/2,6A VF=0.45V S hindengen D3FS4A
DY0054 D105 Shottky diode Philips BAT 54
DS1070 D106 SMD diode pair 70V/100mA common cathode Philips BAV 70W
DLG170 D111 S MD led Green Citizen CL 170G-CD
DLG170 D112 SMD led Green Citizen CL 170G-CD
DLG170 D113 SMD led Green Citizen CL 170G-CD
DLG170 D114 SMD led Green Citizen CL 170G-CD
DLG170 D115 SMD led Green Citizen CL 170G-CD
DLG170 D116 SMD led Green Citizen CL 170G-CD
DLG170 D117 SMD led Green Citizen CL 170G-CD
DLG170 D118 SMD led Green Citizen CL 170G-CD
DLG170 D119 SMD led Green Citizen CL 170G-CD
DLG170 D120 SMD led Green Citizen CL 170G-CD
DLG170 D121 SMD led Green Citizen CL 170G-CD
DLG170 D122 SMD led Green Citizen CL 170G-CD
DLG170 D123 SMD led Green Citizen CL 170G-CD
DLG170 D124 SMD led Green Citizen CL 170G-CD
DLG170 D125 SMD led Green Citizen CL 170G-CD
DLG170 D126 SMD led Green Citizen CL 170G-CD
DLG170 D127 SMD led Green Citizen CL 170G-CD
DLG170 D128 SMD led Green Citizen CL 170G-CD
DLG170 D129 SMD led Green Citizen CL 170G-CD
DLG170 D130 SMD led Green Citizen CL 170G-CD
DS1056 D201 SMD diode pair 70V/100mA common anode Philips BAW 56W
DS1070 D326 SMD diode pair 70V/100mA common cathode Philips BAV 70W
DS1070 D376 SMD diode pair 70V/100mA common cathode Philips BAV 70W
AE0011 ERP Earphone Ceramic receiver Panasonic WM-71
MC1356 ERUB Earphone rubber Masamuovi 931580 40

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Product: TDP-40-TN2 (Delta) / OA0300

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CODE PART DESCRIPT. VALUE MANUF. TYPE
AE0001 EX-BU Buzzer 9x5,5mm 5V 25ohm 90dB Citizen CB-09GP
AF1005 F100 SMD PTC Fuse 0.5A Raychem miniSMD050-2
IR8850 I101 SMD regulator 5V/30mA S eikoInstr S-8850AF-TF
IR8850 I102 SMD regulator 5V/30mA S eikoInstr S-8850AF-TF
IP6810 I201 Prosessor (Peippo) 512 EEPROM, 8A/D, no ROM Motorola MC68HC11A1FU
IP6832 I202 Processor (SIS) 8k maskPROM,512EE PROM Motorola MC68HC11A8 FU
IG8001 I203 ASIC SeikoEpson SLA919SF1V
IM1010 I204 Flash PROM 128kx8 150ns Texas TMS28F010-15C4FM
IM3664 I205 8K*8 CMOS RAM F28GA-P 11.8mm width Toshiba TC5565AFL-15L
IA7550 I206\ Single op.amp. Toshiba TA 75S01F-TE85L
IX1370 I300 Analog prosessor Asic SierraSemi SC11370ACQ
IA7550 I310\ Single op.amp. Toshiba TA 75S01F-TE85L
IX0578 I330\ Low power compander Signetics SA578D
LF0061 L101 SMD EMI suppression filt 4700pF/2A 1.6x6.8mm Murata NFM61R30T472
AMY063 MIC Microphone Omnidirectio -42-+3dB Matsushita WM-060AY
MC1355 MRUB Microphone rubber Masamuovi 931579 30
NF0200 NUTL Nut M2 SFS2067 / DIN943 Ruuvitalo
NF0200 NUTR Nut M2 SFS2067 / DIN943 Ruuvitalo
PA0300 PCB PCB-audio/pros 52x157 Fr4 6-layer Metalex
QF7002 Q101 SMD n-channel FET 60V 0.115A Rds7.5 Siliconix 2N7002-T1
QS0848 Q102 SMD transistor NPN 0.1A/30V hFE 110-800 Philips BC848BW, 115
QS0858 Q103 SMD transistor PNP 0.1A/30V hFE 125-800 Philips BC858BW
QS0858 Q104 SMD transistor PNP 0.1A/30V hFE 125-800 Philips BC858BW
QS0848 Q105 SMD transistor NPN 0.1A/30V hFE 110-800 Philips BC848BW, 115
QS0858 Q107 SMD transistor PNP 0.1A/30V hFE 125-800 Philips BC858BW
QS0848 Q108 SMD transistor NPN 0.1A/30V hFE 110-800 Philips BC848BW, 115
QS0848 Q109 SMD transistor NPN 0.1A/30V hFE 110-800 Philips BC848BW, 115
QS0848 Q228 SMD transistor NPN 0.1A/30V hFE 110-800 Philips BC848BW, 115
QS0848 Q229 SMD transistor NPN 0.1A/30V hFE 110-800 Philips BC848BW, 115
QS0858 Q331 SMD transistor PNP 0.1A/30V hFE 125-800 Philips BC858BW
QS0848 Q332 SMD transistor NPN 0.1A/30V hFE 110-800 Philips BC848BW, 115
QS0848 Q360 SMD transistor NPN 0.1A/30V hFE 110-800 Philips BC848BW, 115
QS0848 Q361 SMD transistor NPN 0.1A/30V hFE 110-800 Philips BC848BW, 115
QS0848 Q394 SMD transistor NPN 0.1A/30V hFE 110-800 Philips BC848BW, 115
QS0848 Q395 SMD transistor NPN 0.1A/30V hFE 110-800 Philips BC848BW, 115
QS0848 Q396 SMD transistor NPN 0.1A/30V hFE 110-800 Philips BC848BW, 115
RF0101 R090 SMD resistor 100 R 5% 0.125 W Kamaya
RF0101 R091 SMD resistor 100 R 5% 0.125 W Kamaya
RF0101 R092 SMD resistor 100 R 5% 0.125 W Kamaya
RF0101 R093 SMD resistor 100 R 5% 0.125 W Kamaya
RF0470 R094 SMD resistor 47 R 5% 0.125 W K amay a
RF0470 R095 SMD resistor 47 R 5% 0.125 W K amay a
RF0101 R096 SMD resistor 100 R 5% 0.125 W Kamaya
RF0101 R097 SMD resistor 100 R 5% 0.125 W Kamaya
RF0101 R098 SMD resistor 100 R 5% 0.125 W Kamaya
RF0101 R099 SMD resistor 100 R 5% 0.125 W Kamaya
RF0101 R100 SMD resistor 100 R 5% 0.125 W Kamaya
RF0101 R101 SMD resistor 100 R 5% 0.125 W Kamaya
RF0101 R102 SMD resistor 100 R 5% 0.125 W Kamaya
RF0103 R103 SMD resistor 10 k 5% 0.125 W K amay a
RF0103 R104 SMD resistor 10 k 5% 0.125 W K amay a
RF0470 R105 SMD resistor 47 R 5% 0.125 W K amay a
RF0470 R106 SMD resistor 47 R 5% 0.125 W K amay a
RF0103 R107 SMD resistor 10 k 5% 0.125 W K amay a
RF0101 R108 SMD resistor 100 R 5% 0.125 W Kamaya
RF0104 R109 SMD resistor 100 k 5% 0.125 W Kamaya
RF0104 R110 SMD resistor 100 k 5% 0.125 W Kamaya
RF0103 R111 SMD resistor 10 k 5% 0.125 W Kamaya
RF0104 R112 SMD resistor 100 k 5% 0.125 W Kamaya
RF0103 R113 SMD resistor 10 k 5% 0.125 W Kamay a

XA0300E4_fm5.fm

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Product: TDP-40-TN2 (Delta) / OA0300

28.1.1999

CODE PART DESCRIPT. VALUE MANUF. TYPE
RF0105 R114 SMD resistor 1 M 5% 0.125 W Kamaya
RD0102 R120 SMD resistor 1 k 5% 0.125 W Kamaya
RF0224 R121 SMD resistor 220 k 5% 0.125 W Kamaya
RF0224 R122 SMD resistor 220 k 5% 0.125 W Kamaya
RF0105 R123 SMD resistor 1 M 5% 0.125 W Kamaya
RF0223 R124 SMD resistor 22 k 5% 0.125 W K amay a
RF0104 R125 SMD resistor 100 k 5% 0.125 W Kamaya
RF0223 R126 SMD resistor 22 k 5% 0.125 W K amay a
RF0103 R127 SMD resistor 10 k 5% 0.125 W K amay a
RF0473 R128 SMD resistor 47 k 5% 0.125 W K amay a
RF0104 R129 SMD resistor 100 k 5% 0.125 W Kamaya
RF0224 R130 SMD resistor 220 k 5% 0.125 W Kamaya
RF0102 R131 SMD resistor 1 k 5% 0.125 W Kamaya
RF0102 R132 SMD resistor 1 k 5% 0.125 W Kamaya
RD0101 R133 SMD resistor 100 R 5% 0.125 W Kamaya
RD0101 R134 SMD resistor 100 R 5% 0.125 W Kamaya
RF0103 R140 SMD resistor 10 k 5% 0.125 W K amay a
RF0103 R141 SMD resistor 10 k 5% 0.125 W K amay a
RF0103 R150 SMD resistor 10 k 5% 0.125 W K amay a
RF0103 R151 SMD resistor 10 k 5% 0.125 W K amay a
RF0104 R156 SMD resistor 100 k 5% 0.125 W Kamaya
RF0392 R157 SMD resistor 3.9 k 5% 0.125 W Kamay a
RF0101 R164 SMD resistor 100 R 5% 0.125 W Kamaya
RF0472 R171 SMD resistor 4.7 k 5% 0.125 W Kamay a
RF0472 R172 SMD resistor 4.7 k 5% 0.125 W Kamay a
RF0472 R173 SMD resistor 4.7 k 5% 0.125 W Kamay a
RF0472 R174 SMD resistor 4.7 k 5% 0.125 W Kamay a
RF0472 R175 SMD resistor 4.7 k 5% 0.125 W Kamay a
RF0472 R176 SMD resistor 4.7 k 5% 0.125 W Kamay a
RF0472 R177 SMD resistor 4.7 k 5% 0.125 W Kamay a
RF0332 R178 SMD resistor 3.3 k 5% 0.125 W Kamay a
RF0472 R179 SMD resistor 4.7 k 5% 0.125 W Kamay a
RF0472 R180 SMD resistor 4.7 k 5% 0.125 W Kamay a
RF0104 R201 SMD resistor 100 k 5% 0.125 W Kamaya
RF0104 R202 SMD resistor 100 k 5% 0.125 W Kamaya
RF0104 R203 SMD resistor 100 k 5% 0.125 W Kamaya
RF0104 R204 SMD resistor 100 k 5% 0.125 W Kamaya
RF0104 R205 SMD resistor 100 k 5% 0.125 W Kamaya
RF0105 R206 SMD resistor 1 M 5% 0.125 W Kamaya
RF0104 R207 SMD resistor 100 k 5% 0.125 W Kamaya
RF0224 R208 SMD resistor 220 k 5% 0.125 W Kamaya
RTN154 R209 SMD NTC-resistor 150k 5% B=4100 Hokuriku 157-154-45001TP
RF1104 R211 SMD resistor 100 k 1% 0.125 W Kamaya
RF1224 R212 SMD resistor 220k 1% 0.125W
RF1104 R213 SMD resistor 100 k 1% 0.125 W Kamaya
RF1104 R214 SMD resistor 100 k 1% 0.125 W Kamaya
RF1104 R215 SMD resistor 100 k 1% 0.125 W Kamaya
RF0105 R221 SMD resistor 1 M 5% 0.125 W Kamaya
RF0103 R222 SMD resistor 10 k 5% 0.125 W K amay a
RF0104 R223 SMD resistor 100 k 5% 0.125 W Kamaya
RF0103 R224 SMD resistor 10 k 5% 0.125 W K amay a
RF0103 R225 SMD resistor 10 k 5% 0.125 W K amay a
RF0103 R226 SMD resistor 10 k 5% 0.125 W K amay a
RF0103 R227 SMD resistor 10 k 5% 0.125 W K amay a
RF0104 R228 SMD resistor 100 k 5% 0.125 W Kamaya
RF0104 R229 SMD resistor 100 k 5% 0.125 W Kamaya
RF1712 R231 SMD resistor 7.15 k 1% Kamaya
RF0472 R235 SMD resistor 4.7 k 5% 0.125 W Kamay a
RF0102 R236 SMD resistor 1 k 5% 0.125 W Kamaya
RF0101 R237 SMD resistor 100 R 5% 0.125 W Kamaya

XA0300E4_fm5.fm

25

Product: TDP-40-TN2 (Delta) / OA0300

28.1.1999

CODE PART DESCRIPT. VALUE MANUF. TYPE
RF0104 R241 SMD resistor 100 k 5% 0.125 W Kamaya
RF0103 R242 SMD resistor 10 k 5% 0.125 W K amay a
RF0103 R243 SMD resistor 10 k 5% 0.125 W K amay a
RF0103 R244 SMD resistor 10 k 5% 0.125 W K amay a
RF0103 R245 SMD resistor 10 k 5% 0.125 W K amay a
RF0103 R246 SMD resistor 10 k 5% 0.125 W K amay a
RF0103 R251 SMD resistor 10 k 5% 0.125 W K amay a
RF0103 R252 SMD resistor 10 k 5% 0.125 W K amay a
RF0103 R253 SMD resistor 10 k 5% 0.125 W K amay a
RF0103 R255 SMD resistor 10 k 5% 0.125 W K amay a
RF0103 R256 SMD resistor 10 k 5% 0.125 W K amay a
RF0104 R257 SMD resistor 100 k 5% 0.125 W Kamaya
RF0104 R258 SMD resistor 100 k 5% 0.125 W Kamaya
RF0104 R259 SMD resistor 100 k 5% 0.125 W Kamaya
RF0104 R260 SMD resistor 100 k 5% 0.125 W Kamaya
RF0104 R261 SMD resistor 100 k 5% 0.125 W Kamaya
RF0104 R266 SMD resistor 100 k 5% 0.125 W Kamaya
RF0104 R275 SMD resistor 100 k 5% 0.125 W Kamaya
RF0104 R276 SMD resistor 100 k 5% 0.125 W Kamaya
RF0104 R277 SMD resistor 100 k 5% 0.125 W Kamaya
RF0104 R278 SMD resistor 100 k 5% 0.125 W Kamaya
RC0106 R281 SMD resistor 10 M 5% 0.125 W Kamaya
RF0103 R282 SMD resistor 10 k 5% 0.125 W K amay a
RF0103 R283 SMD resistor 10 k 5% 0.125 W K amay a
RF0103 R284 SMD resistor 10 k 5% 0.125 W K amay a
RF0472 R285 SMD resistor 4.7 k 5% 0.125 W Kamay a
RF0472 R286 SMD resistor 4.7 k 5% 0.125 W Kamay a
RF0103 R287 SMD resistor 10 k 5% 0.125 W K amay a
RF0103 R288 SMD resistor 10 k 5% 0.125 W K amay a
RF0103 R300 SMD resistor 10 k 5% 0.125 W K amay a
RF0222 R302 SMD resistor 2.2 k 5% 0.125 W Kamay a
RF0473 R304 SMD resistor 47 k 5% 0.125 W K amay a
RF1105 R306 SMD resistor 1 M 1% 0.125 W KOA
RF1153 R308 SMD resistor 15 k 1% 0.125 W KO A
RF0104 R310 SMD resistor 100 k 5% 0.125 W Kamaya
RF1823 R311 SMD resistor 82 k 1% 0.125 W Kamaya
RF0103 R312 SMD resistor 10 k 5% 0.125 W K amay a
RF0683 R313 SMD resistor 68 k 5% 0.125 W K amay a
RF0104 R314 SMD resistor 100 k 5% 0.125 W Kamaya
RF0104 R315 SMD resistor 100 k 5% 0.125 W Kamaya
RF1154 R316 SMD resistor 150 k 1% 0.125 W KOA
RF1333 R320 SMD resistor 33 k 1% 0.125 W KO A
RF1104 R322 SMD resistor 100 k 1% 0.125 W Kamaya
RF1105 R324 SMD resistor 1 M 1% 0.125 W KOA
RF0222 R326 SMD resistor 2.2 k 5% 0.125 W Kamay a
RF1712 R336 SMD resistor 7.15 k 1% Kamaya
RF0102 R358 SMD resistor 1 k 5% 0.125 W Kamaya
RF0104 R359 SMD resistor 100 k 5% 0.125 W Kamaya
RD0100 R360 SMD resistor 10 R 5% 0.125 W Kamaya
RF0102 R361 SMD resistor 1 k 5% 0.125 W Kamaya
RF0102 R367 SMD resistor 1 k 5% 0.125 W Kamaya
RF1333 R370 SMD resistor 33 k 1% 0.125 W KO A
RF1153 R372 SMD resistor 15 k 1% 0.125 W KO A
RF1105 R374 SMD resistor 1 M 1% 0.125 W KOA
RF0222 R376 SMD resistor 2.2 k 5% 0.125 W Kamay a
RF0102 R377 SMD resistor 1 k 5% 0.125 W Kamaya
RF0102 R378 SMD resistor 1 k 5% 0.125 W Kamaya
RF0822 R380 SMD resistor 8.2 k 5% 0.125 W Kamay a
RF0103 R386 SMD resistor 10 k 5% 0.125 W K amay a
RF0103 R387 SMD resistor 10 k 5% 0.125 W K amay a

XA0300E4_fm5.fm

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Product: TDP-40-TN2 (Delta) / OA0300

28.1.1999

CODE PART DESCRIPT. VALUE MANUF. TYPE
RF1104 R388 SMD resistor 100 k 1% 0.125 W Kamaya
RF0104 R391 SMD resistor 100 k 5% 0.125 W Kamaya
RF0104 R392 SMD resistor 100 k 5% 0.125 W Kamaya
RD0100 R393 SMD resistor 10 R 5% 0.125 W Kamaya
RF0102 R394 SMD resistor 1 k 5% 0.125 W Kamaya
RF0102 R395 SMD resistor 1 k 5% 0.125 W Kamaya
RF0102 R396 SMD resistor 1 k 5% 0.125 W Kamaya
RF0681 R397 SMD resistor 680 R 5% 0.125 W Kamaya
RF0101 R398 SMD resistor 100 R 5% 0.125 W Kamaya
NC2004 SCRL Cross recessed screw M2x4 SFS2976 FeZn8C2 Ruuvitalo Pozidriv
NC2004 SCRR Cross recessed screw M2x4 SFS2976 FeZn8C2 Ruuvitalo Pozidriv
OO0242 X-DIS LCD module LCD+PCF8578 Elcoteg
VM0242 X-EXT SMD system connector 1x16 pin AMP 188227-1
AS0230 X-KEY Keyboard Membrane switch ScreenTec 931578 40
VN0112 X-RF SMD connector 2x12 pitch 1.25mm AMP 5-176313-4
X32765 X203 SMD Crystal 32.768kHz +/-20ppm Citizen CM200
X11059 X300 SMD crystal 11.0592MHz ShowaCryst SMX-3F

Last
update

08.02.96

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Product: TDP-40-TN2 (Delta) / OA0300

28.1.1999

Component Side Layout PA0300A4 (Schematic OO0300A-C3)

XA0300E4_fm5.fm

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Product: TDP-40-TN2 (Delta) / OA0300

28.1.1999

Solder Side La yout PA0300A4 (Schematic OA0300A - C3)

XA0300E4_fm5.fm

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Product: TDP-40-TN2 (Delta) / OA0300

A

T

28.1.1999

IRQ

NC

PD0

47

48

49

VSS

50

PD1

51

PD2

52

PD3

53

PD4
PD5
VDD
PA7
PA6
PA5
PA4
NC
NC
PA3
PA2
PA1

54
55
56
57
58
59
60
61
62
63
64

68HC11A1FU

1

2

46

NC

XIRQ

44

45

AD7

RESE

42

43

AD6

41

QFP64

3456789

AD3

AD4

AD5

38

39

40

10

1112131415

AD2

37

AD1

36

NC

35

AD0

34

XTAL

33

32
31
30
29
28
27
26
25
24
23
22
21
20
19
18
17

16

NC
EXTAL
R/W
E
AS
MODA
NC
MODB
VSS
VSS
Vrh
Vrl
PE7
PE3
PE6
PE2

D1

D2
D3
D4
D5
D6
D7
RW
E
AS
IRQ
XIRQ

FCNT
ALARM

DA0
TONE

DA1
DA2

I2CINT2
SCL2
SDA2
RESET
SLEOUT
SLECLK
VDD

PA0

OE

CSIO1

CSIO0

D0

757473

76
77
78

79
80

81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100

123456789

CSROM

72

71

NCNCNC

CSRAM

70

VDD

GND

68

69

PB7

PB6

AH7

AH6

RPAGE

67

666564

PB5

AH5

PB4

AH4

63

PB3

AH3

AH2

62

616059

PB2

AH1

PB1

AH0

PB0

AL7

58

PE0

IG8001

QFP15-100

10

11

12

13

14

151617

18

PE4

AL6

AL5

57

565554

19

PE1

PE5

AL4

AL3

202122

AL2

53

23

AL1

52

24

AL0

51

50
49
48
47
46
45
44
43
42
41
40
39
38
37
36
35
34
33
32
31

30
29
28

27
26

25

I2CINT
SCL
SDA
MCLK
MDAT
SCLK
SDATA
PF7
PF6
PF5
PF4
PF3
PF2
PF1
PF0
GND
VDD
PD7
PD6
PD5

PD4
PD3
PD2

PD1
PD0

XA0300E4_fm5.fm

PA0

GND

PA1

PA2

PA3

PA4

PA5

PA6

PA7

PB0

PB1

PB2

PB3

PB4

PB5

PB6

PB7

PC0

PC1

PC2

PC3

PC4

PC5

PC6

PC7

30

Product: TDP-40-TN2 (Delta) / OA0300

A

A
A

A

A
A
A

A
A

A

28.1.1999

VPP

VCC

A16

2

GND

WE

1

31

32

D3D4D5

PWD

30

29
28
27
26
25
24
23
22
21

D6

A14
A13
A8
A9
A11
OE

A10

CS
D7

A12

A15

28

1

14

2

12

3

7

4

6

5

5

6

4
3

7

8

2

9

1

10

0

11

D0

12

D1

13

D2

14 15

GND D3

RAM

SO28

27
26

25

24
23
22

21
20

19
18

17
16

VCC
WE
A13

A8

A11
A9
OE

A10
CS

D7
D6

D5
D4

5

A7

6

A6

7

A5

8

A4

FLASH

9

A3

10

A2

11

A1

12

A0
D0

PLCC32

13

3

4

1M

14151617181920

D1

D2

ADIN

EXTMIC

MICIN

MICGAIN

LIMO

LIMI

BPOUT

CEXT

DT

TXDATA

CD

COMPI

COMPO

32

33

34
35
36
37
38

SC11370

39
40
41
42
43
44

123456789

RXCLK

RXDAT

TXOUT

UOTOUT

UOTMIN

29

30

31

QFP44

VDD

TXEA

TXCLK

UOROUT

EP1

UORMIN

26

27

28

XIN

SEL

VSS

EP2

25

SDA

EXPO

EXTLS

23

24

22
21
20
19
18
17
16
15
14
13
12

10

11

SCL

CLKOUT

EXPI
RXAUD
REF2
REF1
VMID
REF3
AVS
AVD
STD
TEST
RESET

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Product: TDP-40-TN2 (Delta) / OA0300

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Product: TDP-40-TN2 (Delta) / OA0300

28.1.1999

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Product: TDP-40-TN2 (Delta) / OA0300

28.1.1999

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Product: TDP-40-TN2 (Delta) / OA0300

28.1.1999

XA0300E4_fm5.fm

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Product: TDP-40-TN2 (Delta) / OA0300

28.1.1999

XA0300E4_fm5.fm

36

6.3 RF MODULE

RX Synthesizer

OS0320 Synthesizer

6.3.1 General

The RX synthesizer generates an upper side injection frequency for the receiver.
The injection frequency is fed to the receiver’s first mixer.

Operating voltage 4.75VDC
Current consumptio n 15 mA
Output level to the receiver +1 dBm
Frequency range 540,25...544,725 MHz

Product: TDP-40-TN2 (Delta) / OS0320 Synthesizer

28.1.1999

6.3.2 Functional Description

The RX injection frequency is generated with a phase locked loop. The VCO pro­duces the injection frequency determined by the control voltage. After the VCO
stage comes the amplifier stage Q350. After the amplifier stage, part of the si gnal is
fed to the sy nthesizer circuits I302 di vider. The synthesizer circuit contains a pre­divider, programmable divider, reference frequency divider, and a phase compa rator.

The synthesizer circuit produces pulses at two outputs as a result of the phase-shift
comparison, which are converted to current pulses by the charge pumps Q301 and
Q302. The current p ulses either char ge or d ischar ge t he loop filt er. The VCO control
voltage is derived from the loop filter output.

The synthesizer 25 kHz reference frequency is made by dividing the 12.8 MHz sig­nal from the temperature compensated oscillator (TCXO). The series-form signal
which controls the channel frequency comes from the audio/processor-modules via
the X-RF connector. SDATA and SCLK signals are common to both TX- and R X­synthesizers. A positive pulse i n the SRE line loads th e division ra tio (corre spondin g
to the channel frequency of the channel) fed to the SDATA line, to the synthesizer
circuit I302.

6.3.3 Control- and Output-Signals

VRX RX synthesizer operating voltage 4.75V
SCLK Clock signal for the synthesizer control data
SDATA Synthesizer control data
SRE ENABLE pulse to the synthesizer
RX-INJ RX synthesizer output to the receiver +1 dBm

XS030ZE4_fm5.fm

37

TX-Synthesizer

6.3.4 General

The TX synthesizer generates the final modulated transmission frequency, which is
fed to the transmitter.

Operating voltage 4.75VDC
Current consump tion <30 mA
Output level to the transmitter +6 dBm
Frequency range 453.000...457.475 MHz

6.3.5 Function Description

Product: TDP-40-TN2 (Delta) / OS0320 Synthesizer

28.1.1999

The TX frequency is generated with a phase locked loop (PLL). The VCO produces
the injection frequency determined by the control voltage, and the VCO also has a
modulation input. After the VCO stage comes two amplifier stages Q450 and Q470.
These ensure separation between the VCO and transmitter, and also boost the
injection level suf ficient. Part of the signal is fed from betwee n the amplifier st ages to
the synthesizer circuit I402 pre-divider input. The synthesizer circuit contains a pre­divider, programmable divider, reference frequency divider, and a phase compa rator.

The synthesizer circuit produces pulses at two outputs as a result of the phase-shift
comparison, which are converted to current pulses by the charge pumps Q401 and
Q402. The current pu mps either charge or discharge th e l oo p fi lt er co nd ense r s. Th e
VCO control voltage is derived fr om the loop filt er output.

The synthesizer 25 kHz reference frequency is made by dividing the 12,8 MHz sig­nal from the temperature compensated oscillator (TCXO). The series-form signal
which controls the channel frequency comes from the audio/processor-modules via
the X-RF connector. SDATA and SCLK signals are common to both TX- and R X­synthesizers. A positive pulse in the STE-l ine lo ads th e di vision r atio (corr espond ing
to the channel frequency of the channel) fed to the SDATA line, to the synthesizer
circuit I401.

Modulation is fed to the TX synthesizer TX-AUDIO line. The frequency response is
corrected by the components R490, R491 and C491. Modulation sensitivity is set by
the resistor R492.

XS030ZE4_fm5.fm

38

6.3.6 Control- and Output-Signals

VTX TX synthesizer operating voltage (4.75V)
TXAUDIO Transmitter audio signal
TCXO 12.8 MHz signal to the synthesizer circuit.
SCLK Clock signal for the synthesizer control data
SDATA Synthesizer control dat a
STE ENABLE pulse to the synthesizer
TX-INJ TX synthesizer output to the transmitter (+6 dBm)

Product: TDP-40-TN2 (Delta) / OS0320 Synthesizer

28.1.1999

XS030ZE4_fm5.fm

39

Receiver

OS0320 Receiver

6.3.7 General

The module contains all FM-receiver functional blocks.

RF-amplifier CF 739

1. mixer double-balanced mixer

1. IF-amplifier CF 739
FM IF system SA 607 includes the following blocks:

Product: TDP-40-TN2 (Delta) / OS0320 Receiver

28.1.1999

2. mixer
IF limiter
quadrature detector
RSSI (received signal strength indicator)

The RF signal being received is brought through the duplex filter to the amplifier
stage Q101. The amplified signal is passed through the band pass filter F111 to the
double-balanced mixer X 101.

The upper side injection frequency is brought from the synthesizer through a small
resistive attenuator to the mixer LO pin 1 (LO = local oscillator). The 77.25 MHz
intermediate frequency from the mixer output is fed through the IF-SAW filter F102
to the FM VT-circuit I101.

RX injection frequency 540,250...544,725 MHz

RF-level/impedence +1 dBm / 50 ohm
The second intermediate-fr eqency local-oscillator-frequency required by the FM IF-

circuit is generated by multiplying the 12.8 MHz reference-oscillator frequency by
six. The multiplier circuit is made with transistor Q201.

The other intermediate frequency is 450 kHz. The phase-shift required by the
quadrature detector is made with the parallel-circuit L204. The detected AF-signal
temperature correction is done in the buffer amplifier stage. The RX module is gets
the supply voltage from the regulatorboard OQ0300.

XS030ZE4_fm5.fm

40

6.3.8 Input- and Output-Signals

RF input from the duplex filter 463,000...467,475 MHz

2.LOCAL
VRX

450 kHz Output from 2. IF to the AFC detector
RXAUDIO Receiver audio output 100mVrms

RSSI

SENSITIVITY CHECK

channel RF input SINAD psof.

Product: TDP-40-TN2 (Delta) / OS0320 Receiver

28.1.1999

12.8 MHz signal to the multiplier for the

2.mixer
RX module 4.75 V operating voltage from

the regulator module

Received signal strength indicator output
0,5...2V

001 -113 dBm 20 dB
180 -113 dBm 20 dB

6.3.9 RSSI-Level Adjustment

Feed a 465.225 M H z RF - si gn al o f - 5 8dB m to the receiver. Set the AFC ON (LOCAL
45#) and commence RSSI programming (LOCAL 38#). Wait until the display stabi­lises, and press the F key. Change the level to -68 dBm and press F; -93 dBm and
press F; -103 dBm and press F; -115 dBm and press F; LOCAL 0#.

XS030ZE4_fm5.fm

41

Transmitter

OS0320 Transmitter

6.3.10 General

Operating voltage 5,7...8,0 VDC
Current consumption mid power max. 1.0 A

Input level from the synthesizer +6 dBm
Output level to the duplex filter mid power 33 dBm (2.0W)

Frequency range 453,000...457,475 MHz

6.3.11 Function Description

Product: TDP-40-TN2 (Delta) / OS0320 Transmitter

28.1.1999

low power max. 0.45 A

low power 24.7 dBm (0.3W)

The transmitter uni t comprises th ree ampli fier stag es and two at tenuator st ages. The
pre-amplifier Q60 1 a nd po w er mod ul e I60 1 f or m the tr a nsmi tter a m pli fi er ch ai n. The
attenuators surrounding the pre-amplifier are included to enhance the electric sepa­ration between the TX synthesizer and the transmitter. C604 enhances power mod­ule efficiency.

The operationa l am plifi er I620 an d transi st ors Q6 20 a nd Q621 serve as a p ower r eg­ulator circuit, which adjusts the power level so that the voltage from the transmitter
power detector (D640), and the control voltage TXPWR from the audio/processor
unit are equa l. The power-module power-control voltage must not exceed 4V.

When the phone i s connected to an exter nal volt age supply, the audio/proce ssor unit
raises the transmitter power by approx 1.0 dB using the TXPWR control.

6.3.12 Control- and Output-Singnals

VBat
VBTX Power control and amplifier supply
TXPWR
TXINJ RF signal from the TX synthesizer +6dBm

TXDUPLEX Transmitter output to the duplex filter

Transmitter operating voltage from the
battery-pack (fused )

Power level control signal from the D/A
converter

0...5V

6.3.13 Tuning

The transmitter power is set on mid-channel with a fully charged battery pack or
external power supply. (U = 6.2V)

Connect a power meter to the antenna connector.

Select low power (LOCAL 31 #)

XS030ZE4_fm5.fm

42

Product: TDP-40-TN2 (Delta) / OS0320 Transmitter

28.1.1999

Power adjustment (LOCAL 39#)
With "150" in the display, use the +/- keys to adjust power to
150 mW (21.8 dBm)
With "1.2" in the display, use the +/- keys to adjust power to

1.2 W (30.8 dBm)

XS030ZE4_fm5.fm

43

OS0320

Product: TDP-40-TN2 (Delta) / OS0320

28.1.1999

Component Side Layout PS0300A1

XS030ZE4_fm5.fm

44

Solder Side Layout PS0300A1

Product: TDP-40-TN2 (Delta) / OS0320

28.1.1999

XS030ZE4_fm5.fm

45

Product: TDP-40-TN2 (Delta) / OS0320-RF

28.1.1999

6.3.14 Parts list

OS0320-RF

CODE PART DESCRIPT. VALUE MANUF. TYPE

CF0330 C101 SMD capasitor 33 pF 5% 50 V NP0 Philips
CF0479 C102 SMD capasitor 4.7 pF/0.25pF 50 V NP0 Philips
CF0101 C103 SMD capasitor 100 pF 5% 50 V NP0 Philips
CF0569 C104 SMD capasitor 5.6 pF/0.25pF 50 V NP0 Philips
CF0101 C105 SMD capasitor 100 pF 5% 50 V NP0 Philips
CF0101 C106 SMD capasitor 100 pF 5% 50 V NP0 Philips
CF0229 C107 SMD capasitor 2.2pF +-0.25pF 50V NPO Philips
CF0101 C108 SMD capasitor 100 pF 5% 50 V NP0 Philips
CF0150 C109 SMD capasitor 15 pF 5% 50 V NP0 Philips
CF0103 C110 SMD capasitor 10 nF 10% 50 V X7R Philips
CF0101 C112 SMD capasitor 100 pF 5% 50 V NP0 Philips
CF0829 C113 SMD capasitor 8p2/0.25pF 50V NP0 Philips
CF0101 C114 SMD capasitor 100 pF 5% 50 V NP0 Philips
CF0180 C115 SMD capasitor 18 pF 5% 50 V NPO Philips
CF0821 C116 SMD capasitor 820 pF 5% 50 V X7R Philips
CF0821 C117 SMD capasitor 820 pF 5% 50 V X7R Philips
CF0101 C118 SMD capasitor 100 pF 5% 50 V NP0 Philips
CF0180 C119 SMD capasitor 18 pF 5% 50 V NPO Philips
CF0223 C202 SMD capasitor 22 nF 10% 50 V X7R Philips
CF0689 C203 SMD capasitor 6.8 pF/0.25pF 50 V NP0 Philips
CF0223 C204 SMD capasitor 22 nF 10% 50 V X7R Philips
CF0223 C205 SMD capasitor 22 nF 10% 50 V X7R Philips
CF0223 C206 SMD capasitor 22 nF 10% 50 V X7R Philips
CF0223 C207 SMD capasitor 22 nF 10% 50 V X7R Philips
CF0100 C208 SMD capasitor 10 pF/0.25pF 50 V NP0 Philips
CF0223 C209 SMD capasitor 22 nF 10% 50 V X7R Philips
CF0101 C211 SMD capasitor 100 pF 5% 50 V NP0 Philips
CF0150 C212 SMD capasitor 15 pF 5% 50 V NP0 Philips
CF0103 C213 SMD capasitor 10 nF 10% 50 V X7R Philips
CF0102 C214 SMD capasitor 1 nF 5 % NP0 Philips
CF0150 C215 SMD capasitor 15 pF 5% 50 V NP0 Philips
CF0479 C216 SMD capasitor 4.7 pF/0.25pF 50 V NP0 Philips
CF0102 C217 SMD capasitor 1 nF 5 % NP0 Philips
CU3475 C218 SMD tantal 4.7uF/10V 20% AVX TAJA475M010R
CU1105 C219 SMD tantal 1uF/16V AVX TAJR105M016R
CF0223 C220 SMD capasitor 22 nF 10% 50 V X7R Philips
CF0331 C231 SMD capasitor 330 pF 5% 50 V NP0 Philips
CF0103 C232 SMD capasitor 10 nF 10% 50 V X7R Philips
CF0103 C233 SMD capasitor 10 nF 10% 50 V X7R Philips
CF0103 C240 SMD capasitor 10 nF 10% 50 V X7R Philips
CF0103 C241 SMD capasitor 10 nF 10% 50 V X7R Philips
CU1105 C300 SMD tantal 1uF/16V AVX TAJR105M016R
CU1105 C301 SMD tantal 1uF/16V AVX TAJR105M016R
CF0103 C302 SMD capasitor 10 nF 10% 50 V X7R Philips
CF0101 C303 SMD capasitor 100 pF 5% 50 V NP0 Philips
CU1105 C305 SMD tantal 1uF/16V AVX TAJR105M016R
CF0102 C306 SMD capasitor 1 nF 5 % NP0 Philips
CF0101 C307 SMD capasitor 100 pF 5% 50 V NP0 Philips
CF0101 C308 SMD capasitor 100 pF 5% 50 V NP0 Philips
CF0101 C309 SMD capasitor 100 pF 5% 50 V NP0 Philips
CF0102 C310 SMD capasitor 1 nF 5 % NP0 Philips
CD0104 C320 SMD capasitor 100 nF 10% 50 V X7R Philips
CU1105 C321 SMD tantal 1uF/16V AVX TAJR105M016R
CC0103 C322 SMD capasitor 10 nF 10% 50V X7R Philips
CC0223 C323 SMD capasitor 22 nF 10% 50 V X7R Philips

XS0320E4_fm5.fm

46

Product: TDP-40-TN2 (Delta) / OS0320-RF

28.1.1999

CODE PART DESCRIPT. VALUE MANUF. TYPE
CD0473 C326 SMD capasitor 47 nF 10% 50 V X7R Philips
CF0680 C330 SMD capasitor 68 pF 5% 50 V NP0 Philips
CF0150 C331 SMD capasitor 15 pF 5% 50 V NP0 Philips
CF0399 C334 SMD capasitor 3.9pF 0.25 50V NP0 Philips
CF0180 C340 SMD capasitor 18 pF 5% 50 V NPO Philips
CF0150 C341 SMD capasitor 15 pF 5% 50 V NP0 Philips
CF0180 C342 SMD capasitor 18 pF 5% 50 V NPO Philips
CF0102 C351 SMD capasitor 1 nF 5 % NP0 Philips
CF0680 C352 SMD capasitor 68 pF 5% 50 V NP0 Philips
CU1106 C353 SMD tantal 10uF/16V AVX TAJB106M016R
CF0109 C354 SMD capasitor 1 pF/0.25pF 50 V NP0 Philips
CF0569 C355 SMD capasitor 5.6 pF/0.25pF 50 V NP0 Philips
CF0102 C361 SMD capasitor 1 nF 5 % NP0 Philips
CF0680 C380 SMD capasitor 68 pF 5% 50 V NP0 Philips
CF0680 C381 SMD capasitor 68 pF 5% 50 V NP0 Philips
CF0680 C382 SMD capasitor 68 pF 5% 50 V NP0 Philips
CF0103 C383 SMD capasitor 10 nF 10% 50 V X7R Philips
CF0680 C384 SMD capasitor 68 pF 5% 50 V NP0 Philips
CF0680 C385 SMD capasitor 68 pF 5% 50 V NP0 Philips
CF0102 C386 SMD capasitor 1 nF 5 % NP0 Philips
CF0102 C387 SMD capasitor 1 nF 5 % NP0 Philips
CU1105 C400 SMD tantal 1uF/16V AVX TAJR105M016R
CF0101 C403 SMD capasitor 100 pF 5% 50 V NP0 Philips
CU3475 C405 SMD tantal 4.7uF/10V 20% AVX TAJA475M010R
CF0102 C406 SMD capasitor 1 nF 5 % NP0 Philips
CD0104 C420 SMD capasitor 100 nF 10% 50 V X7R Philips
CU1105 C421 SMD tantal 1uF/16V AVX TAJR105M016R
CC0103 C422 SMD capasitor 10 nF 10% 50V X7R Philips
CC0223 C423 SMD capasitor 22 nF 10% 50 V X7R Philips
CF0680 C430 SMD capasitor 68 pF 5% 50 V NP0 Philips
CF0220 C431 SMD capasitor 22 pF 5% 50 V NP0 Philips
CF0229 C433 SMD capasitor 2.2pF +-0.25pF 50V NPO Philips
CF0399 C434 SMD capasitor 3.9pF 0.25 50V NP0 Philips
CF0180 C440 SMD capasitor 18 pF 5% 50 V NPO Philips
CF0150 C441 SMD capasitor 15 pF 5% 50 V NP0 Philips
CF0390 C442 SMD capasitor 39pF 5% 50V NP0 Philips
CF0102 C451 SMD capasitor 1 nF 5 % NP0 Philips
CF0680 C452 SMD capasitor 68 pF 5% 50 V NP0 Philips
CU1106 C453 SMD tantal 10uF/16V AVX TAJB106M016R
CF0399 C454 SMD capasitor 3.9pF 0.25 50V NP0 Philips
CF0390 C455 SMD capasitor 39pF 5% 50V NP0 Philips
CF0102 C461 SMD capasitor 1 nF 5 % NP0 Philips
CF0680 C470 SMD capasitor 68 pF 5% 50 V NP0 Philips
CF0680 C471 SMD capasitor 68 pF 5% 50 V NP0 Philips
CF0101 C472 SMD capasitor 100 pF 5% 50 V NP0 Philips
CF0101 C473 SMD capasitor 100 pF 5% 50 V NP0 Philips
CF0229 C475 SMD capasitor 2.2pF +-0.25pF 50V NPO Philips
CF0829 C476 SMD capasitor 8p2/0.25pF 50V NP0 Philips
CF0102 C490 SMD capasitor 1 nF 5 % NP0 Philips
CF0332 C491 SMD capasitor 3.3 nF 5% 50 V NP0 Philips
CF0680 C493 SMD capasitor 68 pF 5% 50 V NP0 Philips
CF2109 C494 SMD capasitor 1pF +-0.1pF 50V NPO AV X/Kyocer 06031J1R0BAW
CF0101 C601 SMD capasitor 100 pF 5% 50 V NP0 Philips
CF0101 C602 SMD capasitor 100 pF 5% 50 V NP0 Philips
CF0569 C603 SMD capasitor 5.6 pF/0.25pF 50 V NP0 Philips
CF0229 C604 SMD capasitor 2.2pF +-0.25pF 50V NPO Philips
CF0103 C620 SMD capasitor 10 nF 10% 50 V X7R Philips
CF0332 C621 SMD capasitor 3.3 nF 5% 50 V NP0 Philips
CU1105 C622 SMD tantal 1uF/16V AVX TAJR105M016R
CF0102 C624 SMD capasitor 1 nF 5 % NP0 Philips

XS0320E4_fm5.fm

47

Product: TDP-40-TN2 (Delta) / OS0320-RF

28.1.1999

CODE PART DESCRIPT. VALUE MANUF. TYPE

CF0102 C635 SMD capasitor 1 nF 5 % NP0 Philips
CU3475 C636 SMD tantal 4.7uF/10V 20% AVX TAJA475M010R
CF0101 C640 SMD capasitor 100 pF 5% 50 V NP0 Philips
CF0101 C641 SMD capasitor 100 pF 5% 50 V NP0 Philips
CF0101 C642 SMD capasitor 100 pF 5% 50 V NP0 Philips
DC0229 D330 SMD silicon tuning diode 1V/19pF...4V/ 11pF Toshiba 1SV229
DC0229 D430 SMD silicon tuning diode 1V/19pF...4V/ 11pF Toshiba 1SV229
DC0229 D490 SMD silicon tuning diode 1V/19pF...4V/ 11pF Toshiba 1SV229
DP3880 D601 SMD pin diode HP HSMP-3880-L31
DY0071 D640 SMD shottky diode 70V 15mA SGS-

Thomso

DY0071 D641 SMD shottky diode 70V 15mA SGS-

Thomso
XW7725 F102 SAW IF-filter 77.25MHZ, I/O 1.6K//2.3pF Murata SAFC77.250MA53X
LH1465 F111 SMD H-filt.MY,HU,SK,CZ, NORD.MOSK. 465MHz Neosid SM-H80056 1522
AF1103 F380 SMD fuse 3.5A nanofuce Littelfuse R271 03.5
IV6070 I101 FM IF-system Philips SA607DK
XO3128 I301 SMD VCTCXO 12.8 MHZ TEW TXS 1144M
IS1511 I302 PLL freg.synthesiz Fujitsu MB1511
IS1511 I402 PLL freg.synthesiz Fujitsu MB1511
IW8710 I601 RF-power amplifier 430-460 MHz Mitsubishi M68710H
IA7550 I620\ Single op.amp. Toshiba TA 75S01F-TE85L
LC2334 L111 S MD inductor 330 nH/+-10% TDK MLF2012DR33KT
LC2334 L201 SMD inductor 330 nH/+-10% TDK MLF2012DR33KT
LC2224 L202 SMD inductor 220 nH/+-10% TDK MLF2012DR22KT
LC2104 L203 SMD inductor 100 nH/+-10% TDK MLF2012DR10KT
LI1687 L204 SMD Quad. coil 680uH/180pF 455kHz Toko 303LC-1150
LC2334 L211 S MD inductor 330 nH/+-10% TDK MLF2012DR33K T
LC0334 L330 SMD inductor 330 nH Siemens B82412A3331M
LC0334 L430 SMD inductor 330 nH Siemens B82412A3331M
MD0311 P101 Shield plate for IF Telemetall 931605 40
MD0301 P102 IF-shield plate 2 Tel emet al l 931606 40
MD0303 P330 Shield case for Rx/VCO Telemetall 931585 41
MD0304 P430 Shield case for Tx/VCO Telemetall 931586 41
ME1008 P601 Casting body Jysk„nmeta 931534 10

MD0306 P602 Tx-fastening plate T elemetall 931584 41
NC2005 P603 Cross recessed screw M2x5 SFS2977 DIN9652 Ruuvitalo Pozidriv
NC2005 P604 Cross recessed screw M2x5 SFS2977 DIN9652 Ruuvitalo Pozidriv
MD0305 P605 Shield plate for Tx Telemetall 931583 41
QFB739 Q101 GaAs MES FET 2 GHz 240mW N1.8dB/1.75GHz Siemens CF 739 B
QFB739 Q102 GaAs MES FET 2 GHz 240mW N1.8dB/1.75GHz Siemens CF 739 B
QAA193 Q201 SMD RF-transistor 6GHz/300mW F=1.9dB P hilips BFR93AW
QS0012 Q301 SMD-low-power switc.tra. PNP 15V/250mW P hilips BSR12-215
QS0848 Q302 SMD transistor NPN 0.1A/30V hFE 110-800 Philips BC848BW, 115
QA4926 Q340 SMD NPN RF-transistor G=16.5dB/900MHz NF=1.1 Hitachi 2SC4926Y D-TL
QA4926 Q350 SMD NPN RF-transistor G=16.5dB/900MHz NF=1.1 Hitachi 2SC4926Y D-TL
QS0012 Q401 SMD-low-power switc.tra. PNP 15V/250mW P hilips BSR12-215
QS0848 Q402 SMD transistor NPN 0.1A/30V hFE 110-800 Philips BC848BW, 115
QA4926 Q440 SMD NPN RF-transistor G=16.5dB/900MHz NF=1.1 Hitachi 2SC4926Y D-TL
QA4926 Q450 SMD NPN RF-transistor G=16.5dB/900MHz NF=1.1 Hitachi 2SC4926Y D-TL
QFA739 Q470 GaAs MES FET 2 GHz 240mW N1.8dB/1.75GHz Siemens CF 739 A
QA3606 Q601 SMD RF-transistor NPN 7GHz NF=1.1dB Toshiba 2SC3606
QS0848 Q620 SMD transistor NPN 0.1A/30V hFE 110-800 Philips BC848BW, 115
QS0858 Q621 SMD transistor PNP 0.1A/30V hFE 125-800 Philips BC858BW
RF0100 R103 SMD resistor 10 R 5% 0.125 W K amay a
RF0471 R104 SMD resistor 470 R 5% 0.125 W Kamaya
RF0102 R106 SMD resistor 1 k 5% 0.125 W Kamaya
RF0101 R107 SMD resistor 100 R 5% 0.125 W Kamaya
RF0471 R109 SMD resistor 470 R 5% 0.125 W Kamaya
RF0471 R111 SMD resistor 470 R 5% 0.125 W Kamaya

BAS 70-04

BAS 70-04

XS0320E4_fm5.fm

48

Product: TDP-40-TN2 (Delta) / OS0320-RF

28.1.1999

CODE PART DESCRIPT. VALUE MANUF. TYPE
RF0100 R112 SMD resistor 10 R 5% 0.125 W Kamay a
RF0472 R115 SMD resistor 4.7 k 5% 0.125 W Kamaya
RF0220 R116 SMD resistor 22 R 5% 0.125 W Kamay a
RF0271 R117 SMD resistor 270 R 5% 0.125 W Kamaya
RF0102 R119 SMD resistor 1 k 5% 0.125 W Kamaya
RF0100 R120 SMD resistor 10 R 5% 0.125 W K amay a
RF0100 R121 SMD resistor 10 R 5% 0.125 W K amay a
RF0102 R122 SMD resistor 1 k 5% 0.125 W Kamaya
RF0472 R201 SMD resistor 4.7 k 5% 0.125 W Kamay a
RF0102 R202 SMD resistor 1 k 5% 0.125 W Kamaya
RF0242 R203 SMD resistor 2.4 k 5% 0.125 W Kamay a
RF0333 R205 SMD resistor 33 k 5% 0.125 W K amay a
RF0103 R206 SMD resistor 10 k 5% 0.125 W K amay a
RF0393 R207 SMD resistor 39 k 5% 0.125 W K amay a
RF0102 R208 SMD resistor 1 k 5% 0.125 W Kamaya
RF0683 R211 SMD resistor 68 k 5% 0.125 W Kamaya
RF0102 R212 SMD resistor 1 k 5% 0.125 W Kamaya
RF0683 R213 SMD resistor 68 k 5% 0.125 W K amay a
RTN223 R214 SMD-NTC resistor 22k 10% B=3924 Hokuriku 157-223-45001TP
RF0332 R215 SMD resistor 3.3 k 5% 0.125 W Kamay a
RF0473 R221 SMD resistor 47 k 5% 0.125 W K amay a
RF0822 R222 SMD resistor 8.2 k 5% 0.125 W Kamay a
RF0100 R223 SMD resistor 10 R 5% 0.125 W K amay a
RF0220 R224 SMD resistor 22 R 5% 0.125 W K amay a
RF0103 R301 SMD resistor 10 k 5% 0.125 W K amay a
RF0220 R302 SMD resistor 22 R 5% 0.125 W K amay a
RF0221 R305 SMD resistor 220 R 5% 0.125 W Kamaya
RF0103 R306 SMD resistor 10 k 5% 0.125 W K amay a
RF0103 R307 SMD resistor 10 k 5% 0.125 W K amay a
RF0103 R308 SMD resistor 10 k 5% 0.125 W K amay a
RF0822 R310 SMD resistor 8.2 k 5% 0.125 W Kamay a
RF0392 R311 SMD resistor 3.9 k 5% 0.125 W Kamaya
RF0221 R312 SMD resistor 220 R 5% 0.125 W Kamaya
RF0822 R313 SMD resistor 8.2 k 5% 0.125 W Kamay a
RF0822 R314 SMD resistor 8.2 k 5% 0.125 W Kamay a
RF0221 R315 SMD resistor 220 R 5% 0.125 W Kamaya
RF0182 R320 SMD resistor 1.8 k 5% 0.125 W Kamay a
RF0472 R321 SMD resistor 4.7 k 5% 0.125 W Kamay a
RF0472 R322 SMD resistor 4.7 k 5% 0.125 W Kamay a
RF0100 R323 SMD resistor 10 R 5% 0.125 W K amay a
RF0822 R340 SMD resistor 8.2 k 5% 0.125 W Kamay a
RF0222 R341 SMD resistor 2.2 k 5% 0.125 W Kamay a
RF0151 R342 SMD resistor 150 R 5% 0.125 W Kamaya
RF0472 R350 SMD resistor 4.7 k 5% 0.125 W Kamay a
RF0152 R351 SMD resistor 1.5 k 5% 0.125 W Kamay a
RF0150 R352 SMD resistor 15 R 5% 0.125 W K amay a
RF0331 R360 SMD resistor 330 R 5% 0.125 W Kamaya
RF0100 R361 SMD resistor 10 R 5% 0.125 W K amay a
RF0331 R363 SMD resistor 330 R 5% 0.125 W Kamaya
RF0221 R380 SMD resistor 220 R 5% 0.125 W Kamaya
RF0102 R381 SMD resistor 1 k 5% 0.125 W Kamaya
RF0470 R405 SMD resistor 47 R 5% 0.125 W K amay a
RF0103 R406 SMD resistor 10 k 5% 0.125 W K amay a
RF0103 R407 SMD resistor 10 k 5% 0.125 W K amay a
RF0103 R408 SMD resistor 10 k 5% 0.125 W K amay a
RF0472 R410 SMD resistor 4.7 k 5% 0.125 W Kamay a
RF0222 R411 SMD resistor 2.2 k 5% 0.125 W Kamaya
RF0271 R412 SMD resistor 270 R 5% 0.125 W Kamaya
RF0472 R413 SMD resistor 4.7 k 5% 0.125 W Kamay a
RF0332 R414 SMD resistor 3.3 k 5% 0.125 W Kamay a

XS0320E4_fm5.fm

49

Product: TDP-40-TN2 (Delta) / OS0320-RF

28.1.1999

CODE PART DESCRIPT. VALUE MANUF. TYPE
RF0271 R415 SMD resistor 270 R 5% 0.125 W Kamaya
RF0122 R420 SMD resistor 1.2 k 5% 0.125 W Kamay a
RF0222 R421 SMD resistor 2.2 k 5% 0.125 W Kamay a
RF0222 R422 SMD resistor 2.2 k 5% 0.125 W Kamay a
RF0100 R423 SMD resistor 10 R 5% 0.125 W K amay a
RF0822 R440 SMD resistor 8.2 k 5% 0.125 W Kamay a
RF0222 R441 SMD resistor 2.2 k 5% 0.125 W Kamay a
RF0221 R442 SMD resistor 220 R 5% 0.125 W Kamaya
RF0472 R450 SMD resistor 4.7 k 5% 0.125 W Kamay a
RF0152 R451 SMD resistor 1.5 k 5% 0.125 W Kamay a
RF0150 R452 SMD resistor 15 R 5% 0.125 W K amay a
RF0121 R460 SMD resistor 120 R 5% 0.125 W Kamaya
RF0151 R461 SMD resistor 150 R 5% 0.125 W Kamaya
RF0220 R462 SMD resistor 22 R 5% 0.125 W K amay a
RF0680 R470 SMD resistor 68 R 5% 0.125 W K amay a
RF0100 R472 SMD resistor 10 R 5% 0.125 W K amay a
RF0181 R473 SMD resistor 180 R 5% 0.125 W Kamaya
RF0221 R474 SMD resistor 220 R 5% 0.125 W Kamaya
RF0823 R490 SMD resistor 82 k 5% 0.125 W K amay a
RF0184 R491 SMD resistor 180 k 5% 0.125 W Kamaya
RF0123 R492 SMD resistor 12 k 5% 0.125 W K amay a
RF0103 R493 SMD resistor 10 k 5% 0.125 W K amay a
RF0100 R601 SMD resistor 10 R 5% 0.125 W K amay a
RF0470 R603 SMD resistor 47 R 5% 0.125 W K amay a
RF0102 R604 SMD resistor 1 k 5% 0.125 W Kamaya
RF0392 R605 SMD resistor 3.9 k 5% 0.125 W Kamay a
RF0391 R606 SMD resistor 390 R 5% 0.125 W Kamaya
RF0100 R607 SMD resistor 10 R 5% 0.125 W K amay a
RF0391 R608 SMD resistor 390 R 5% 0.125 W Kamaya
RF0104 R620 SMD resistor 100 k 5% 0.125 W Kamaya
RF0102 R621 SMD resistor 1 k 5% 0.125 W Kamaya
RF0152 R622 SMD resistor 1.5 k 5% 0.125 W Kamay a
RF0471 R623 SMD resistor 470 R 5% 0.125 W Kamaya
RF0184 R640 SMD resistor 180 k 5% 0.125 W Kamaya
RF0103 R641 SMD resistor 10 k 5% 0.125 W K amay a
RF0103 R642 SMD resistor 10 k 5% 0.125 W K amay a
RF0104 R643 SMD resistor 100 k 5% 0.125 W Kamaya
XM0006 X101 Dual balanced mixcer 450 MHz MiniCircui RMS -1LL
XC3450 X201 Ceramic IF-filter 450Khz Murata CFUCG450E
XC4450 X202 Ceramic IF-filter 450kHz Murata CFUCG450F
XR1650 X330 Cera mic coaxial resonato 650MHz 4x4x13mm Q>250 Siemens B69610-G6506-A41
MD0309 X380 Contactplate Telemetall 941770 40
MD0309 X381 Contactplate Telemetall 941770 40
MD0309 X382 Contactplate Telemetall 941770 40
MD0309 X383 Contactplate Telemetall 941770 40
LF0061 X390 SMD EMI suppression filt 4700pF/2A 1.6x6.8mm Murata NFM61R30T472
XR1550 X430 Cera mic coaxial resonato 550MHz 4x4x14,5mm Q>250 Siemens B69610-G5506-A41
OD0320 X600 Duplexer Nord. Rx465,Tx455MHz Solitra NBS4401
XI0005 X601 Directional coupler NMT450 MKT Taisei DCS3120-09
VN0008 XOSOQ Katso VN0115 Katso VN0115 Katso VN0115

Last
update

29.08.96

XS0320E4_fm5.fm

50

Product: TDP-40-TN2 (Delta) / OQ0300 Regulator

28.1.1999

Regulator

6.3.15 Parts list of Regulator

OQ0300 Regulator

CODE PART DESCRIPT. VALUE MANUF. TYPE

CF0102 C501 SMD capasitor 1 nF 5 % NP0 Philips
CF0102 C502 SMD capasitor 1 nF 5 % NP0 Philips
CF0102 C503 SMD capasitor 1 nF 5 % NP0 Philips
CD0104 C504 SMD capasitor 100 nF 10% 50 V X7R Philips
CF0102 C505 SMD capasitor 1 nF 5 % NP0 Philips
CF0680 C506 SMD capasitor 68 pF 5% 50 V NP0 Philips
CF0102 C507 SMD capasitor 1 nF 5 % NP0 Philips
CF0102 C508 SMD capasitor 1 nF 5 % NP0 Philips
CF0221 C509 SMD capasitor 220 pF 5% 50 V NP0 Philips
CF0221 C510 SMD capasitor 220 pF 5% 50 V NP0 Philips
CF0221 C511 SMD capasitor 220 pF 5% 50 V NP0 Philips
CF0221 C512 SMD capasitor 220 pF 5% 50 V NP0 Philips
CF0221 C513 SMD capasitor 220 pF 5% 50 V NP0 Philips
CF0102 C515 SMD capasitor 1 nF 5 % NP0 Philips
CF0102 C516 SMD capasitor 1 nF 5 % NP0 Philips
CF0102 C517 SMD capasitor 1 nF 5 % NP0 Philips
CF0102 C518 SMD capasitor 1 nF 5 % NP0 Philips
CF0221 C519 SMD capasitor 220 pF 5% 50 V NP0 Philips
CU3475 C523 SMD tantal 4.7uF/10V 20% AVX TAJA475M010R
CF0102 C524 SMD capasitor 1 nF 5 % NP0 Philips
CU3475 C525 SMD tantal 4.7uF/10V 20% AVX TAJA475M010R
CF0102 C526 SMD capasitor 1 nF 5 % NP0 Philips
CU3475 C527 SMD tantal 4.7uF/10V 20% AVX TAJA475M010R
CU1105 C530 SMD tantal 1uF/16V AVX TAJR105M016R
CF0102 C631 SMD capasitor 1 nF 5 % NP0 Philips
CF0102 C632 SMD capasitor 1 nF 5 % NP0 Philips
CF0102 C633 SMD capasitor 1 nF 5 % NP0 Philips
MG1104 CASE5 RF-contact strip 2.0x4.1x610mm Instr.Spec 0097-T551-02
IR1547 I501 Voltage regulator 4.75V/ 180mA Toko TK 11547 MTL
IR1547 I502 Voltage regulator 4.75V/ 180mA Toko TK 11547 MTL
IR1547 I631 Voltage regulator 4.75V/ 180mA Toko TK 11547 MTL
MC1399 INSUL Insulator foil Sreenhouse 941785 40
LC0105 L501 SMD inductor 1.0 uH Siemens B82412-A1102-M
PQ0300 PCB Tavi PCB-reg./conn. ??
RF0102 R501 SMD resistor 1 k 5% 0.125 W Kamaya
RF0102 R502 SMD resistor 1 k 5% 0.125 W Kamaya
RF0221 R503 SMD resistor 220 R 5% 0.125 W Kamaya
RF0102 R504 SMD resistor 1 k 5% 0.125 W Kamaya
RF0102 R505 SMD resistor 1 k 5% 0.125 W Kamaya
RF0102 R506 SMD resistor 1 k 5% 0.125 W Kamaya
RF0102 R507 SMD resistor 1 k 5% 0.125 W Kamaya
RF0102 R508 SMD resistor 1 k 5% 0.125 W Kamaya
RF0102 R509 SMD resistor 1 k 5% 0.125 W Kamaya
RF0100 R510 SMD resistor 10 R 5% 0.125 W K amay a
RF0102 R511 SMD resistor 1 k 5% 0.125 W Kamaya
RF0102 R512 SMD resistor 1 k 5% 0.125 W Kamaya
RF0102 R513 SMD resistor 1 k 5% 0.125 W Kamaya
RF0102 R514 SMD resistor 1 k 5% 0.125 W Kamaya
RF0102 R515 SMD resistor 1 k 5% 0.125 W Kamaya
RF0102 R516 SMD resistor 1 k 5% 0.125 W Kamaya
RF0102 R551 SMD resistor 1 k 5% 0.125 W Kamaya
RF0102 R552 SMD resistor 1 k 5% 0.125 W Kamaya

XQ0300E4_fm5.fm

54

Product: TDP-40-TN2 (Delta) / OQ0300 Regulator

28.1.1999

CODE PART DESCRIPT. VALUE MANUF. TYPE
RF0221 R553 SMD resistor 220 R 5% 0.125 W Kamaya
RF0102 R554 SMD resistor 1 k 5% 0.125 W Kamaya
RF0102 R555 SMD resistor 1 k 5% 0.125 W Kamaya
RF0102 R556 SMD resistor 1 k 5% 0.125 W Kamaya
RF0102 R557 SMD resistor 1 k 5% 0.125 W Kamaya
RF0102 R559 SMD resistor 1 k 5% 0.125 W Kamaya
RF0102 R560 SMD resistor 1 k 5% 0.125 W Kamaya
RF0102 R561 SMD resistor 1 k 5% 0.125 W Kamaya
RF0100 R562 SMD resistor 10 R 5% 0.125 W K amay a
RF0102 R563 SMD resistor 1 k 5% 0.125 W Kamaya
RF0102 R565 SMD resistor 1 k 5% 0.125 W Kamaya
RF0102 R566 SMD resistor 1 k 5% 0.125 W Kamaya
RF0104 R631 SMD resistor 100 k 5% 0.125 W Kamaya
RF0104 R638 SMD resistor 100 k 5% 0.125 W Kamaya
RF0104 R639 SMD resistor 100 k 5% 0.125 W Kamaya
VM0112 X SMD connector 2x12 male AMP 5-175643-4
VM0018 X-RF SMD B/B-connector 2x15 vertical male SuyinConne 12753A-30G
LF0061 X501 SMD EMI suppression filt 4700pF/2A 1.6x6.8mm Murata NFM61R30T472

Last
update

09.05.96

XQ0300E4_fm5.fm

55