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Summary of content (50 pages)

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NPE-3 System Module PAMS Technical Documentation 7DEOH RI &RQWHQWV 3DJH 1R Glossary of Terms .......................................................................................................... 5 Baseband ........................................................................................................................ 7 Audio parts ...................................................................................................................9 Power consumption ............................
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PAMS Technical Documentation NPE-3 System Module /LVW 2I )LJXUHV 3DJH 1R Fig 1 Baseband Block Diagram ...........................................................................................8 Fig 2 System Connector.......................................................................................................11 Fig 3 RF Fequency Plan......................................................................................................28 Fig 4 Frequency Synthesiser................................
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NPE-3 System Module PAMS Technical Documentation Rubber boot Microphone 2 3 Solderable element, 2 pcs 4 8 13 Contact 1 DC-jack 2,3,4 Contact 5 Microphone port Contacts 8...13 Contact 14 14 Cable/Cradle connector guiding/fixing hole, 3 pcs re 2.
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NPE-3 System Module PAMS Technical Documentation Table 1. Signals of the system connector Pin Name Min 1 VIN Typ Max Unit Notes 0 8.5 V Unloaded Fast Charger 0 850 mA Supply current 0 15.0 Vpeak Unloaded Standard Charger 1.0 Apeak Supply current 0 V Supply ground DC Jack 2 GND 0 3 VIN 0 8.5 V Unloaded Fast Charger DC Jack 0 850 mA Supply current 0 0.8 V Charger control (PWM) dig. Low DC Jack 1.7 2.
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NPE-3 System Module PAMS Technical Documentation 10 16 1500 2.8 HEAR 0 14 220 kΩ Load DC resistance to GND (Accessory) pin #14 Ohm Load DC resistance to GND (Headset) pin #14 V DC voltage (47k pull-up to VBB) mV Earphone signal Connected to COBBA_GJP HF output 11 MBUS 0 0.8 2.0 2.8 V Serial bidirectional control bus. Baud rate 9600 Bit/s Phone has 4.7kΩ pull up resistor 12 FBUS_RX 0 0.8 2.0 2.8 V Fbus receive. Serial Data Baud rate 9.6k-230.
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NPE-3 System Module PAMS Technical Documentation Logic low ”0” 4. SDATA MAD2WD1 0.5 V Current 50 uA Load capacitance 10 pF 2.8 V Logic high ”1” 0 2.0 Serial data , prog HAGAR SyntData PCN/GSM TX/RX and synth. Logic low ”0” 0 Load impedance 10 0.5 kohm Load capacitance 10 Data rate frequency 5. SCLK MAD2WD1 Logic high ”1” V 3.25 MHz 2.8 2.0 pF V Serial clk, prog HAGAR SynthClk PCN/GSM TX/RX and synth. Logic low ”0” 0 Load impedance 10 0.
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NPE-3 System Module PAMS Technical Documentation 7. RFC VCTCXO Frequency 26 MHz clock signal ±1pp m To MAD2WD1 High stability for the logic circuits (via divider) Signal amplitude 0.5 Load resistance 10 1.0 2.0 Vpp kohm Load capacitance 10 pF Settling time 5 mS From power on 8/9 . RXI /RXQ HAGAR Output level 50 1344 MVpp Differential RX 13 MHz sig- COBBA_ nal to base- GJP band RXIP/RXQP Source impedance Tbd. Load resistance 1 Load capacitance 10.
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NPE-3 System Module PAMS Technical Documentation 13/14. TXQP/ COBBA_ TXQN GJP DNL +/0.9 LSB INL +/-1 LSB Group delay missmatch 100 ns 1.18 Vpp Differential voltage swing 1.022 1.1 Differential quadrature phase TX baseband signal for the RF modulator DC level 0.816 V Differential offset voltage (corrected) +/2.0 mV Diff. offset voltage temp. dependence +/1.0 mV Source impedance 200 ohm Load resistance 0.784 40 Load capacitance Resolution 15. TXP MAD2WD1 0.
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NPE-3 System Module PAMS Technical Documentation 16. TXC COBBA_ Voltage Min 0.18 0.12 V Transmitter power control GJP TxCOut Voltage Max 2.33 2.27 V Vout temperature dependence 10 LSB Source impedance active state 200 ohm Source imped- high Z ance power down state Input resistance MAD2WD1 kohm Input capacitance 10 pF Settling time 10 us Noise level 500 uV RMS Resolution 17. HAGAR 10 10 0...200 kHz bits DNL +/-0.
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NPE-3 System Module PAMS Technical Documentation Power supplies for RF/BB 1. VXO CCONT VR1 Voltage CCONT VR2 Voltage 3.RAM_ BCK CCONT VR3 Voltage 4.VSYN_2 CCONT VR4 Voltage CCONT VR5 Voltage CCONT VR6 Voltage CCONT VR7 Voltage CCONT V5V Voltage CCONT VBB Voltage CCONT VR1_SW Voltage VREF Voltage 2.VRX 5.VSYN_1 6.VCOBBA 7.VTX 8. VCP 9.VBB 10.VIRDA 11.VREF 2.7 Current 2.7 Current 2.7 2.8 2.85 V 10 100 mA 2.8 2.85 V 20 100 mA 2.8 2.85 V 50 mA 2.8 2.
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NPE-3 System Module PAMS Technical Documentation 6HULDO 5) LQWHUIDFH 7KH SLQ SDUDOOHO 0$' &2%%$B*- LQWHUIDFH LV FKDQJHG WR D SLQ VHULDO LQWHUIDFH EHWZHHQ 0$' :' DQG &2%%$B*-3 Table 3.
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NPE-3 System Module PAMS Technical Documentation )ODVK 3URJUDPPLQJ FRQQHFWLRQV Table 4. Flash Programming via the system connector. Pin Name Parameter Min 1 VIN Supply Voltage 6.8 2 GND GND 11 MBUS 12 14 Unit Remark V Supply Voltage 0 0 V Supply ground Serial clock from the Prommer 2.0 2.8 V 0 0.8 Prommer detection and Serial Clock for synchronous communication Serial data from the Prommer 2.0 2.8 V 0 0.8 Receive Data from Prommer to Baseband 2.0 2.
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NPE-3 System Module PAMS Technical Documentation Table 5. Battery Connector Electrical Specifications Pin 1 2 Name BVOLT BSI Min 3.0 Typ 3.6 0 Max 4.5 Unit V Notes Battery voltage 5.0 Maximum voltage in call state with charger 5.3 Maximum voltage in idle state with charger 2.8 V Battery size indication Phone has 100kohm pull up resistor. SIM Card removal detection (Threshold is 2.4V@VBB=2.8V) 0 1 1.
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NPE-3 System Module PAMS Technical Documentation 6,0 FDUG FRQQHFWRU 2QO\ VPDOO DQG 9 6,0 FDUGV DUH VXSSRUWHG Table 6. SIM Connector Electrical Specifications Pin Name Parameter Min Typ Max Unit Notes 1 GND GND 0 2 VSIM 3V SIM Card 2.8 5V SIM Card 4.8 3V Vin/Vout 2.8 VSIM 0 0.5 Vlow SIM data Trise/Tfall max 1us 4.0 VSIM Vhigh 0 0.5 Vlow SIM data Trise/Tfall max 1us 3V SIM Card 2.8 VSIM 5V SIM Card 4.
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NPE-3 System Module PAMS Technical Documentation ,QWHUIDFH %DVH EDQG WR /&' PRGXOH 7KH /&' LV EDVHG RQ D +' W\SH RI /&' PRGXOH EXW ZLWK D KLJKHU UHVROXWLRQ RI [ SL[HOV 7KH GULYHU KDV WKH VDPH LQWHUIDFH DV WKH +' GULYHU EXW LV DEOH WR DGGUHVV WKH H[WUD SL[HOV 7DEOH 5HTXHVWHG PRGXOH LQWHUIDFH Pin 1 2 3 Signal Symbol VL SCLK SDA Parameter Supply voltage fEXT Serial clock input LCDCDX 2.7 Ty p. 2.8 0 Max. Unit 3.3 V 250 µA +25 °C, VL=2.
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NPE-3 System Module PAMS Technical Documentation 5HDO 7LPH &ORFN 7KH UHDO WLPH IXQFWLRQV LQ WKH &&217 DUH WKH EDVLF FORFN DQG DODUP IXQFWLRQV 7KH FDOHQ GDU IXQFWLRQV DUH LPSOHPHQWHG LQ 0&8 VRIWZDUH $XGLR FRQQHFWLRQV Table 8. Internal Audio, Electrical specifications Pin Name n/a EARN n/a Min Typ Max Unit Remark 0 14 220 mV Connected to COBBA_GJP EARN output. Typical level corresponds to -16 dBm0 network level with volume control giving nominal RLR (=+2dB) 8 db below max.
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NPE-3 System Module PAMS Technical Documentation 142.
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NPE-3 System Module PAMS Technical Documentation Table 10. Flash programming signals with respective system connector pins (for production use only) Pin 14 11 13 12 Name Min Typ Max Description GND 0V 0V VDD 3.0 V 5.3 V Connected to VBAT Supply voltage. SCLK 0V 0.8 V Low level Serial clock. 2.0 V 2.8 V High level 0V 0.8 V Low level 2.0 V 2.8 V High level 0V 0.8 V Low level 2.0 V 2.8 V High level 0V 1.2 V Inactive 12.6 V Active TXDBF TXDFB VPP 1.
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NPE-3 System Module PAMS Technical Documentation 5) )UHTXHQF\ 3ODQ HAGAR 925-960 MHz I-signal Q-signal 1805-1880 MHz f f/2 RX f f/2 f f/2 PLL 34203840 MHz f f/2 26 MHz VCTCXO 880-915 MHz I-signal Q-signal 1710-1785 MHz TX )LJXUH 5) )HTXHQF\ 3ODQ '& FKDUDFWHULVWLFV 5HJXODWRUV 7UDQVFHLYHU KDV D PXOWL IXQFWLRQ SRZHU PDQDJHPHQW ,& DW EDVHEDQG VHFWLRQ ZKLFK FRQ WDLQV DPRQJ RWKHU IXQFWLRQV DOVR SHDFH V RI 9 UHJXODWRUV $OO UHJXODWRUV FDQ EH FRQWUROOHG LQGLYLGXDOO\ ZLWK 9 ORJLF
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NPE-3 System Module PAMS Technical Documentation 3RZHU 'LVWULEXWLRQ 'LDJUDP BATTERY VBATT TXP PA VCXOPWR CLK DATA SELX Serial Interface SYNTHPWR TXP VR 1 VR 2 VCTCXO & HAGAR LNA’s & HAGAR RX (VDIG) VXO VR 4 VR 7 VR REF VR 5V HAGAR VRX VREF HAGAR SHF VCO VSYN_2 VSYN_1 (VLO, VPRE VBB,VF_RX) ,VVXH VR 5 1RNLD 0RELOH 3KRQHV /WG HAGAR & BUFFER TX VTX HAGAR CHARGE PUMP VCP 3DJH
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NPE-3 System Module PAMS Technical Documentation 7UDQVPLWWHU FKDUDFWHULVWLFV Item Values Type Direct conversion, dualband, non-linear, FDMA/ TDMA LO frequency range 3520 ... 3660 / 3420 ... 3570 MHz Output power 2 W / 1 W peak Gain control range min. 30 dB Maximum phase error ( RMS/peak ) max 5 deg./20 deg.
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