PAMS Technical Documentation NSW-4 Series Transceivers System Module SE2L Issue 1 08/00 Nokia Mobile Phones Ltd.
NSW-4 System Module SE2L PAMS Technical Documentation AMENDMENT RECORD SHEET Amendment Date Number 08/00 Page 2 Inserted By Comments OJuntune Issue1 Nokia Mobile Phones Ltd.
PAMS Technical Documentation NSW-4 System Module SE2L CONTENTS Page No Transceiver NSW-4 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . External Connectors and Main Interfaces . . . . . . . . . . . . . . . . . . Contacts Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Battery Connector . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
NSW-4 System Module SE2L PAMS Technical Documentation Mixed Trigger to power up . . . . . . . . . . . . . . . . . . . . . . . . . . . Power Down . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Controlled Power Down . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Power Down pushing PWR key . . . . . . . . . . . . . . . . . . . . Power Down when the battery voltage is too low . . . . . Power Down with fault in transmitter . . . . . . . . . . . . . . . .
PAMS Technical Documentation NSW-4 System Module SE2L Frequency Synthesizers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . DAMPS 800 operation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . TDMA 1900 operation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Transmitter . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . DAMPS800 TX . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . TDMA1900 TX . . . . . . . . . .
NSW-4 System Module SE2L PAMS Technical Documentation CONTENTS Page No Schematics/ Layouts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . A1 – A11 System block diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . Dualband RX . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Dualband TX . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Audio . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
PAMS Technical Documentation NSW-4 System Module SE2L Transceiver NSW-4 Introduction The NSW–4 is a dual band triple mode radio transceiver designed for the DAMPS and TDMA1900 networks. The transceiver comprises of a System/RF module SE2L with integrated user interface and assembly parts. The transceiver features a full graphic display and a two soft–key based user interface. The antenna is internal. External antenna connection is not included.
NSW-4 System Module SE2L PAMS Technical Documentation Battery Connector Battery contact signals Pin Name Min Typ Max Unit Notes 4 BVOLT 3.0 3.6 4.5 V Battery voltage 3 BSI 0 50 5.0 Maximum voltage in call state with charger 5.3 Maximum voltage in idle state with charger 2.85 V Battery size indication Phone has 100kohm pull up resistor. SIM Card removal detection (Threshold is 2.4V@VBB=2.
NSW-4 System Module SE2L PAMS Technical Documentation Charging Connector Contact Jack & surface contact Line Symbol VIN Parameter Charger input voltage Charger input current Min. Typical / Nominal Max. Unit / Notes 7.1 8.4 9.3 720 7.24 800 7.6 850 7.95 320 5.7 500 370 6.0 620 420 6.3 750 0 0 V/ Supply ground 0.
NSW-4 System Module SE2L PAMS Technical Documentation Headset Connector The contacts of the headset connector are listed below, with the help of the diagram of the headset plug. HEADSET PLUG 4/5 3 2 1 Contact Line Symbol 1. contact (plug ring 1) XMICN 2. contact (plug ring 2) XEARN 3. contact (plug ring 3) XMICP 4. and 5. contact (center pin) XEARP (4) / HEADSETINT (5) Page 10 Nokia Mobile Phones Ltd.
NSW-4 System Module SE2L PAMS Technical Documentation Baseband Module, Functional Description Modes of Operation The phone has the following main operating modes – Analog mode, on 800 MHz band – Analog Control Channel ACCH – Analog Voice Channel AVCH – Digital mode, on 800 MHz band – Digital Control Channel DCCH – Digital Traffic Channel DTCH – Digital mode, on 1900 MHz band – Digital Control Channel DCCH – Digital Traffic Channel DTCH – Out Of Range –mode OOR – Locals mode Analog Control C
NSW-4 System Module SE2L PAMS Technical Documentation With audio signal also SAT (Supervisory Audio Tone) is being received from the base station. The SAT signal can be 5970 Hz, 6000Hz or 6030 Hz, the frequency being defined by the base station. DSP’s DPLL phase lock loops to SAT, detects if the SAT frequency is the expected one and examines the signal quality. DSP reports SAT quality figures to MCU regularly. The received SAT signal is transponded (transmitted back) to base station.
NSW-4 System Module SE2L PAMS Technical Documentation Digital Data Channel Digital Data Channel is supported in the product. Out of Range mode (OOR) If the phone cannot find signal from the base station on any control channel (analog or digital) it can go into OOR mode for power saving. All RF circuits are powered off and baseband circuits are put into low power mode, VCXO is stopped and only sleep clock is running in MAD and CCONT.
NSW-4 System Module SE2L PAMS Technical Documentation clock running when the main battery is removed. The backup power supply is a rechargeable polyacene battery with a backup time of ten minutes. The interface between the baseband and the RF section is handled by a specific asic. The COBBA_D asic provides A/D and D/A conversion of the in–phase and quadrature receive and transmit signal paths and also A/D and D/A conversions of received and transmitted audio signals to and from the UI parts.
PAMS Technical Documentation NSW-4 System Module SE2L MCU main features System control Cellular Software (CS) Cellular Software communicates with the switching office, and performs call build–up, maintenance and termination. Communication control M2BUS is used to communicate to external devices. This interface is also used for factory testing, service and maintenance purposes. User Interface (UI) PWR–key, keyboard, LCD, backlight, mic, ear and alert (buzzer, vibra, led) control.
NSW-4 System Module SE2L PAMS Technical Documentation MCU writes controls (regulators on/off, Watchdog reset, charge PWM control) and reads AD–conversion values. For AD–conversions MCU gives the clock for CCONT (bus clock), because the only clock in CCONT is sleep clock, which has a too low frequency. DSP Main Features DSP (Digital Signal Processor) is in charge of the channel and speech coding according to the IS–136 specification. The block consists of a DSP and internal ROM and RAM memory.
PAMS Technical Documentation NSW-4 System Module SE2L internal and external devices. There are also all the AD– and DA– converters for the RF interface. DEMO block is used for FM–demodulation in analog mode. A slow speed DA–converter provides automatic frequency control (AFC). In addition, there is a DA–converters for transmitter power control (TXC). COBBA also passes the RFC (19.44 MHz) to MAD as COBBACLK (9.72 MHz).
NSW-4 System Module SE2L PAMS Technical Documentation Clocking System Clock 19.44MHz VCXO 200mVpp–1Vpp VR1 CHAPS LCD–DRVR sine wave BATTERY RFC LCDRESX MAD COBBA COBBACLK RFCEN CCONT RFCSETTLED PWRONX COBBARESX 9.72MHz Square wave 2.8Vpp SLCLK 32 kHz PURX . Clocking and resets VCXO on RF provides the system clock for baseband (RFC). COBBA squares the clock and divides it by two for MAD (COBBACLK).
PAMS Technical Documentation NSW-4 System Module SE2L has been started once. The SLCLK output is enabled only when the baseband parts are powered up. After the sleep periods, when the VCXO is restarted (by RFCEN), MAD takes care that the clock is not used before it is properly settled. MAD output RFCSETTLED prevents COBBA from using the clock during the settling time (RFCSETTLED rises later than RFCEN), as well MAD internally inhibits DSP and MCU during the same time.
NSW-4 System Module SE2L PAMS Technical Documentation Power Distribution In normal operation the baseband is powered from the phone‘s battery. The battery consists of one Lithium–Ion cell. There is also a possibility to use batteries consisting of three Nickel Metal Hydride cells or one Solid state cell. An external charger can be used for recharging the battery and supplying power to the phone.
PAMS Technical Documentation NSW-4 System Module SE2L VR1 is used for the VCXO supply, and VR6 is used in COBBA for analog parts. RFCEN signal to CCONT controls both VR1 and VR6 regulators; they can be switched off in sleep modes, and during standby. However, VR6 output is not switched off, but connected to VBB inside CCONT, in order to avoid false accessory interrupts. CCONT regulators are controlled either through SIO from MAD or timing sensitive regulators are controlled directly to their control pins.
NSW-4 System Module SE2L PAMS Technical Documentation Power up with a charger Normal Battery voltage VCHAR VR1, VBB, VR6 RFCEN RFCSETTLED RFC (VCXO) COBBACLK PURX SLCLK CCONTINT t1 t2 t3 The power up procedure is similar to process described in the previous chapter with the exception that the rising edge of VCHAR triggers the power up in CCONT. Also CCONT sets output CCONTINT.
NSW-4 System Module SE2L PAMS Technical Documentation Empty Battery Before battery voltage voltage rises over 3.0 V CHAPS gives an initial charge (with limited current) to the battery. After battery voltage reaches that voltage limit the power up procedure is as described in the previous chapters. VBAT > 3.0 V VCHAR VR1, VBB, VR6 RFCEN RFCSETTLED RFC (VCXO) COBBACLK PURX SLCLK CCONTINT t1 t2 t3 Before battery voltage voltage rises over 3.
NSW-4 System Module SE2L PAMS Technical Documentation CCONT. After that the power–up procedure is similar to pushing power– button. NSW-6 does not have any IBI accessories. Mixed Trigger to power up It is possible that PWR–key is pushed during charger initiated power–up procedure or charger is connected during PWR–key initiated power up procedure. In this kind of circumstances the power–up procedure (in HW point of view) continues as nothing had happened.
PAMS Technical Documentation NSW-4 System Module SE2L Battery Disconnected When battery is disconnected, immediate and totally uncontrolled power– down happens. Therefore a power off procedure in this case can not be described. One possible risk is that if the MCU is writing something to Flash exactly at the same moment, the memory contents may be corrupted.
1 (1) NSW-4 System Module SE2L PAMS Technical Documentation – some MCU or DSP timer expires – DSP regular event interrupt happens – MBUS activity is detected – FBUS activity is detected – Charger is connected, Charger interrupt to MAD – any key on keyboard is pressed, interrupt to MAD – HEADSETINT, from the switch of the headset connector (EAD) – HOOKINT, from XMIC lines Charging Control Charging is controlled by MCU SW, which writes control data to CCONT via serial bus.
NSW-4 System Module SE2L PAMS Technical Documentation with the charger connector signal. PWMOUT signal frequency is selected to be 32 Hz, and the charger output voltage is controlled by adjusting the PWMOUT signal pulse width. The charger switch in CHAPS is constantly on in this case. Watchdog Both MAD and CCONT include a watchdog, and both use the 32 kHz sleep clock. The watchdog in MAD is the primary one, and this is called SW–watchdog. MCU has to update it regularly.
NSW-4 System Module SE2L PAMS Technical Documentation Parameter Symbol LIM input Min Typ Max Unit Output voltage cutoff limit (during transmission or Li– battery) VLIM1 LOW 4.4 4.6 4.8 V Output voltage cutoff limit (no transmission or Ni–battery) VLIM2 HIGH 4.8 5.0 5.2 V The voltage limit (VLIM1 or VLIM2) is selected by logic LOW or logic HIGH on the CHAPS LIM– input pin. Default value is lower limit VLIM1.
NSW-4 System Module SE2L PAMS Technical Documentation Battery Temperature The battery temperature is measured with a NTC inside the battery pack. The BTEMP line inside transceiver has a 100k pullup to VREF. The MCU can calculate the battery temperature by reading the BTEMP line DC– voltage level with a CCONT A/D–converter.
NSW-4 System Module SE2L PAMS Technical Documentation by the CHAPS when the main battery voltage is over 3.2V. The charging current is 200uA (nominal). Operating mode Vref RF REG Power off Off Off VCOBBA Off VBB VSIM SIMIF Power on On On/Off On On On On/Off Reset On Off VR1 On On On Off Pull down Sleep On Off On On On On/Off Off Off Pull down Note: CCONT includes also five additional 2.8V regulators providing power to the RF section.
NSW-4 System Module SE2L PAMS Technical Documentation Slide EMI MAD COBBA Preamp Premult. Bias +EMI DSP MIC2 Pre & LP Headset Connector MIC1 EMI+ACC Interf. MCU Multipl. MIC3 XMICP A D XMICN XEARP XEARN HFCM Amp Buzzer Driver Circuit Multipl. AuxOut HF LP EAR A D Buzzer Display EMI The baseband supports three microphone inputs and two earphone outputs. The inputs can be taken from an internal microphone, a headset microphone or from an external microphone signal source.
NSW-4 System Module SE2L PAMS Technical Documentation External Audio Connections The external audio connections are presented in the figure on the previous page. A headset can be connected directly to the headset connector. The headset microphone bias is supplied from COBBA AUXOUT output and fed to microphone through XMIC line. Audio Accessory Detection When the MCU–SW receives a headset–interrupt, generated by the switch in the headset–connector, it will start the accessory–detection sequence.
NSW-4 System Module SE2L PAMS Technical Documentation 4–wire PCM Serial Interface The interface consists of following signals: a PCM codec master clock (PCMDClk), a frame synchronization signal to DSP (PCMSClk), a codec transmit data line (PCMTX) and a codec receive data line (PCMRX). The COBBA_D generates the PCMDClk clock, which is supplied to DSP SIO. The COBBA_D also generates the PCMSClk signal to DSP by dividing the PCMDClk. The PCMDClk frequency is 1.
NSW-4 System Module SE2L PAMS Technical Documentation generated with the buzzer. The buzzer is controlled with a BuzzerPWM output signal from the MAD1. A dynamic type of buzzer is used since the supply voltage available can not produce the required sound pressure for a piezo type buzzer. The low impedance buzzer is connected to the UI– switch ASIC.
PAMS Technical Documentation NSW-4 System Module SE2L Digital Control MAD The baseband functions are controlled by the MAD asic, which consists of a MCU, a system ASIC and a DSP.
NSW-4 System Module SE2L PAMS Technical Documentation VCXO supply power from the CCONT regulator output. The CCONT provides a 32kHz sleep clock for internal use and to the MAD1PR1, which is used for the sleep mode timing. The sleep clock is active when there is a battery voltage available i.e. always when the battery is connected. Memories The MCU program code resides in an external program memory, size is16Mbits. MCU work (data) memory size is 2Mbits (128k x16).
NSW-4 System Module SE2L PAMS Technical Documentation line is pulled low. This acknowledgement is used to start the data transfer of the first two bytes from the flash prommer to the baseband on the FBUS RX–line. The data transmission begins by starting the serial transmission clock (MBUS–line) at the prommer. The 2.8V programming voltage is supplied inside the transceiver from the CCONT.
NSW-4 System Module SE2L PAMS Technical Documentation RF Module Technical Summary The RF module converts the signal received by the antenna to a baseband signal and vice versa. It consists of a conventional superheterodyne receiver and a transmitter for each band and also two frequency synthesizers for the required mixing. The RF module includes one integrated circuit, the EROTUS a BiCMOS ASIC. The dual–band RF–module is capable for seamless operation between 800 MHz and 1900 MHz bands.
NSW-4 System Module SE2L PAMS Technical Documentation IF2 A–mode 450 kHz 2nd IF 450 kHz 1930.08–1989.96 MHz 869.04–893.97 MHz IF2 D–mode 450 kHz 1st IF 116.19 MHz 116.64 MHz 2046.24–2106.18 MHz 985.20–1010.16 MHz LO 3 LO 1 PLL PLL f 2f f/2 f 196.23 MHz 161.19 MHz 1850.01–1909.95 MHz 824.01–848.97 MHz PLL EROTUS NOTE! Frequencies in TDMA1900 mode are printed in italics 3f LO 2 392.46 MHz 322.38 MHz 58.32 MHz f VCTCXO RFC 19.44 MHz 19.
TypeYourNameHere TypeDateHere NSW-4 System Module SE2L PAMS Technical Documentation DUAL BAND OPERATION Freq. doubler 2 mA 2 mA RFCEN VR1 19.44 MHz VCTCXO 2 mA 3* Multiplier VREF 8 mA SPWR1 VHF presc. 6 mA Bias UHF– VCO VR2 UHF presc. & PLL 10 mA 5 mA (peak) V5V 30 mA COBBA_D (Analog) VR6 TXPWR1 2 mA Digital supply 1 mA Power control VR5 2 mA RXPWR1 Detector VRS 1 mA VR4 35 mA Modulator IF1 – amp. 26 mA/ 5.
NSW-4 System Module SE2L PAMS Technical Documentation Current consumption in different operation modes can be seen in the table below:. 800 MHz 800 MHz 800 MHz 800 MHz 800 MHz 1900 MHz 1900 MHz Ext. Analog Analog Digital Digital Digital Digital Standby Control Traffic Control Traffic Control Traffic [mA] Channel Channel Channel Channel Channel Channel [mA] [mA] [mA] [mA] [mA] [mA] VR1 9.0 / 0.0 9.0 9.0 9.0 / 0.0 9.0 19.0 / 0.0 19.0 VR2 16.0 / 0.0 16.0 16.0 16.0 / 0.0 16.0 0.0 0.0 VR3 0.
NSW-4 System Module SE2L PAMS Technical Documentation ceiver front end contains a LNA and the 1st mixer. Analog and digital IF– parts are integrated in the EROTUS. The received RF signal from the antenna is fed through a duplex filter to the receiver unit. The signal is amplified by a low noise preamplifier. In digital mode the gain of the amplifier is controlled by the AGC2 control line. The nominal gain of 19 – 20 dB is reduced in the strong signal condition about 14 – 16 dB (in digital mode).
PAMS Technical Documentation NSW-4 System Module SE2L VCTCXO. Frequency of the oscillator is 19.44 MHz. It is controlled by an AFC voltage, which is generated in the base band circuits. In digital mode operation, the receiver is locked to base station frequency by AFC. Next to detector diode, there is a sensor for temperature measurement. Voltage RFTEMP from this sensor is fed to baseband for A/D conversion. This information of the RF PA–block temperature is used as input for compensation algorithms.
NSW-4 System Module SE2L PAMS Technical Documentation UHF VCO signal and the modulated TX intermediate signal in an active mixer. After the mixing TX signal is amplified by a driver stage. From driver stage the signal is fed trough the TX filter to PA MMIC. The PA amplifies the TX signal by 28–32 dB. Amplified TX signal is filtered in the duplex filter. Then signal is fed to the antenna, where the maximum output level is typically 480 mW.
PAMS Technical Documentation NSW-4 System Module SE2L Software Compensations Power Levels (TXC) vs. Temperature Because of wide temperature range, it is necessary to compensate the effect of temperature on the output power. To monitor this environment change, temperature measurement is done by using NTC resistor. A Factor table is used for temperature compensation. The table values are defined without factory measurements. Temperature is measured and right compensation value is added to TXC–value.
NSW-4 System Module SE2L PAMS Technical Documentation RF Block Specifications Receiver DAMPS 800MHz RX Front End Receiver front end is integrated in the IC. It has RF amplifier with a gain step and an active mixer. RX interstage filter is a SAW filter. Connector Charging Line Symbol Minimum VIN Supply voltage 7.1 2.7 Typical / Nominal Maximum/ Peak 8.4 9.3 2.8 2.85 V RF amplifier current cons. 10.0 11.0 mA Mixer current consumption 3.0 5.0 mA LO buffer current consumption 2.0 3.
NSW-4 System Module SE2L PAMS Technical Documentation TDMA 1900MHz RX Front End Receiver front end is integrated in the IC. It has RF amplifier with a gain step and an active mixer. RX interstage filter is a dielectric filter. Parameter Min Typ/ Nom Max 2.7 2.8 2.85 V RF amplifier current cons. 15.0 17.0 mA Mixer current consumption 11.0 15.0 mA Supply voltage RF amplifier frequency range RF amplifier insertion gain 1930 – 1990 18 19 MHz 20 ±1.
NSW-4 System Module SE2L PAMS Technical Documentation Parameter Min Typ/ Nom Max 2.7 2.8 2.9 IF1 amp + mixer current cons. 6 8 6x freq. multipl. current cons. 1.8 mA Limiter + RSSI current cons. 1.3 mA Supply voltage Power up time Unit V mA (+0.6 mA in d–mode) 2 RF input impedance single end RF input frequency range 900//–1 45 116.19 Noise figure, IF1 amp + mixer Conversion gain @ Rl=1.
NSW-4 System Module SE2L PAMS Technical Documentation Parameter Min Typ/ Nom Local frequency (6x19.44 MHz) IF frequency Max voltage gain, AGC + mixer Max Unit 116.64 MHz 450 kHz 47 dB Min voltage gain, AGC + mixer –10 dB Gain change, AGC + mixer ±5 dB, temp –30...+85 C Noise figure @ max gain 8 dB Control voltage for min gain 0.5 Control voltage for max gain 1.4 1.45 V 90 TBD dB/V AGC gain control slope TBD Mixer output 1dB compr. point 0.
NSW-4 System Module SE2L PAMS Technical Documentation Power level Analog mode Digital mode 800 MHz Digital mode 1900 MHz Design target (** Unit / Notes 8 – 4 +2 ,–4 4 +2 ,–6 4 +2 ,–2 dBm 9 – 0 +2 ,–6 0 +2 ,–8 0 +2 ,–2 dBm 10 – –4 +2 ,–8 –4 +2 ,–10 –4 +2 ,–2 dBm (*) In analog mode PL0,1&2 is 22.0dBm, PL3 is 21.0 dBm &PL4 is 18.5 dBm. (* Used when battery voltage goes lower than 3.3V and in high temperature.
NSW-4 System Module SE2L PAMS Technical Documentation Parameter VHF 800MHz analog mode tx injection VHF 800MHz digital mode rx/tx slot VHF 1900MHz mode tx injection Unit/ Notes 2 x fo level –30 –30 –30 dBc Phase noise, fo _ 60 kHz fo _120 kHz –105 –105 –105 dBc/Hz, max Phase error 2 2 2 Frequency settling time within _ 3 kHz within _ 30 Hz 20 20 20 Start up settling time 20 20 20 _ rms, max ms, max ms, max Output levels Parameter Min 2G UHF synthesizer to Lo buffer level
NSW-4 System Module SE2L PAMS Technical Documentation Signal name From/ Control To Parameter VBAT battery RF 2V8 regul. Min Typ Max Unit Voltage 3.1 3.6 5.3 V Voltage during TX 3.0 3.6 5.0 V 1200 mA 1.523 V 10 uA Current VREF CCON T Erotus Voltage 1.478 1.50 Current VR1 VR2 CCON Erotus, Voltage T VCTCXO, / 2GHz RFCEN PLL CCON T / SPWR 1 Erotus, UHF VCO1 2.7 2.8 2.85 V Current, tdma 800 3.0 7 9 mA Current, tdma1900 3.0 17 19 mA Voltage 2.7 2.8 2.
NSW-4 System Module SE2L PAMS Technical Documentation Signal name From/ Control VR6 CCON T To Parameter Erotus Voltage disc.PLL Cobba_D Min Typ Max Unit 2.7 2.8 2.85 V 2.0 3.0 mA 2.88 2.95 V 55 60 mA 5.0 5.2 V 3.0 5.0 mA 1.5 V RF temperature sensor (47 k NTC to GND) 2.25 V Automatic frequency control signal for VCTCXO. When DAC is switched OFF AFC output is in high–Z mode Current (RF block) VR7 CCON T TXP1 TX PA Voltage 2.
NSW-4 System Module SE2L Signal name From/ Control PAMS Technical Documentation To Parameter Max Unit Function 0.4 V TDMA1900 operation Sink/source curr. 1.0 mA Load capacitance 10 pF Timing inaccuracy 1 ms Logic low ”0” Min Typ 0 DSP, MCU MODE MAD PA, (FM– detector) Logic high ”1” 2.1 Logic low ”0” 0 Sink/source curr. V Digital 800 operation 0.4 V Analog 800 operation 2.
NSW-4 System Module SE2L PAMS Technical Documentation Signal name From/ Control To Parameter Load resistance Min Typ 1 Load capacitance Voltage RXPWR1 RXPWR2 1) MAD (CTID, LNASEL) MAD (CTID, DSP FTC) MUX CCONT RF block 2V8 regulator Logic high ”1” Max Unit MΩ 50 pF 0.1 V 2.0 V Supply voltage VR4 ON Supply voltage VR4 OFF DSP Logic low ”0” 0.5 V Current 100 uA timing inaccuracy 30 us Logic high ”1” Function 2.
NSW-4 System Module SE2L PAMS Technical Documentation Parts Lists Engine Module SE2L (0201494) (EDMS V 6.9) Item Code Description Value Type ––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––– R113 1430726 Chip resistor 100 5 % 0.063 W 0402 R151 1430690 Chip jumper R153 1419007 Chip resistor 0.22 2 % 1210 R154 1430826 Chip resistor 680 k 5 % 0.063 W 0402 R158 1620025 Res network 0w06 2x100k j0404 R159 1430832 Chip resistor 2.7 k 5 % 0.
NSW-4 System Module SE2L PAMS Technical Documentation R305 R306 R307 R308 R309 R310 R311 R312 R313 R314 R331 R332 R333 R335 R337 R339 R701 R721 R725 R744 R750 R751 R752 R756 R758 R760 R761 R762 R763 R764 R765 R767 R768 R770 R771 R774 R775 R779 R781 R782 R786 R788 R789 R795 R796 R798 R801 R802 1413829 1413829 1413829 1430726 1430726 1430784 1430784 1430796 1430812 1430796 1620031 1430754 1620031 1620031 1620031 1620031 1430710 1430718 1430710 1430758 1430690 1430790 1430744 1430790 1430778 1620047 1430812
NSW-4 System Module SE2L R803 R820 R821 R822 R823 R824 R850 R851 R852 R870 R871 R872 R880 R881 R883 R884 R885 R900 R901 R902 R903 R905 R906 R907 R925 R926 R933 R934 R936 R937 R938 R939 R940 R941 R942 R943 R944 R945 R980 R984 C100 C101 C102 C112 C151 C152 C153 C154 Page 58 1430754 1430700 1430726 1430754 1430726 1430792 1430700 1430778 1430690 1430700 1430772 1430700 1430700 1430700 1430764 1430726 1430778 1430718 1430754 1430690 1430718 1430832 1430732 1430690 1430718 1430718 1430718 1620101 1430754 1430
NSW-4 System Module SE2L PAMS Technical Documentation C155 2320540 C157 2320620 C158 2320481 C159 2320481 C160 2320481 C161 2320481 C162 2320481 C163 2320481 C164 2320481 C165 2320620 C166 2320481 C167 2320620 C168 2320620 C169 2320481 C170 2320481 C171 2320584 C175 2312405 C176 2320469 C178 2611715 3.2x1.6x1.6 C180 2312401 C181 2320783 C185 2611727 3.2x1.6x1.6 C186 2610029 3.5x2.8x1.2 C187 2320481 C189 2320481 C190 2320629 C192 2610029 3.5x2.8x1.
NSW-4 System Module SE2L C259 C260 C263 C264 C265 C266 C274 C275 C276 C277 C280 C281 C285 C286 C303 C304 C305 C306 C307 C330 C331 C332 C333 C334 C335 C336 C337 C338 C339 C340 C341 C343 C344 C701 C703 C705 C706 C707 C708 C709 C710 C713 C715 C716 C717 C719 C720 C721 Page 60 2312295 2312295 2320807 2320807 2320807 2320807 2320807 2320807 2320807 2320807 2320558 2320558 2320783 2320481 2320544 2320544 2320544 2320544 2320544 2320560 2320560 2320560 2320560 2320560 2320560 2320560 2320560 2320560 2320560 2320
NSW-4 System Module SE2L PAMS Technical Documentation C729 C733 C734 C735 C736 C739 C742 C743 C744 C745 C746 C748 C749 C750 C751 C755 C756 C757 C758 C759 C760 C761 C762 C763 C764 C765 C766 C767 C768 C769 C770 C772 C773 C779 C780 C781 C782 C783 C784 C785 C786 C787 C788 C789 C790 C791 C792 C793 2320620 2320536 2320536 2320520 2320524 2320522 2320560 2320552 2320514 2320617 2320560 2320620 2320560 2320584 2320584 2320568 2320620 2320576 2320576 2320783 2320560 2320618 2320618 2320618 2320584 2320584 2320592
NSW-4 System Module SE2L C794 C795 C796 C797 C798 C799 C820 C821 C822 C823 C824 C825 C826 C827 C828 C850 C851 C854 C855 C870 C871 C872 C873 C874 C875 C880 C881 C882 C883 C884 C885 C886 C887 C888 C889 C890 C902 C903 C904 C905 C906 C907 C908 C909 C910 C912 C913 C914 Page 62 2320481 2320807 2312401 2312401 2320807 2320536 2310793 2320560 2320584 2320564 2320564 2320526 2310248 2320536 2310793 2312401 2320584 2320584 2320807 2320584 2320584 2320584 2312401 2312401 2320560 2312401 2320560 2320520 2320584 2320
NSW-4 System Module SE2L PAMS Technical Documentation 3.2x1.6x1.
NSW-4 System Module SE2L 0603 L723 L724 1008 L740 0603 L741 0603 L745 0603 L747 0603 L750 1008 L761 0805 L762 0805 L820 L850 1008 L880 L902 0402 L903 0402 L904 0402 L905 0402 L906 L908 0402 L911 L930 L931 0402 L940 0402 L941 L951 0402 L960 L961 L962 0402 L964 L966 Page 64 PAMS Technical Documentation 3645157 Chip coil 3640701 Chip coil 100 n 470 n 10%Q=12/100MHz 5%Q=32/100MHz 3645231 Chip coil 39.Q n 5%Q=40/250MHz 3645301 Chip coil 180 n 5%Q=13/100MHz 3645231 Chip coil 39.
NSW-4 System Module SE2L PAMS Technical Documentation L975 L981 0402 B151 B301 G850 G880 G881 F150 Z701 Z726 Z741 Z750 Z751 Z791 Z900 Z901 Z910 Z920 Z950 Z960 Z970 Z975 V100 V101 V102 V110 V150 V151 V152 V153 V154 V250 SOT323 V251 SOT323 V252 V301 V302 V320 V321 V322 V323 V324 V325 V336 V723 V901 3645157 Chip coil 3646069 Chip coil 4510219 5140087 4510249 4350161 4350159 5119019 4511125 4511113 4511011 4550085 4550081 3640085 4511111 4511123 4512091 3640085 4511023 4512121 4550065 4511023 4110067 4110067
NSW-4 System Module SE2L V902 V929 V930 V931 V932 D200 D201 D202 N150 N152 N250 N255 N310 N700 N701 N702 N721 N770 N870 N900 N902 N903 N951 N960 N980 S330 S331 S332 X303 Page 66 4210043 4110008 4110008 4112443 4112443 4340615 4340585 4370559 4370631 4370165 4370603 4340691 4370433 4370571 4370063 4340247 4370065 4340233 4340237 4340171 4340577 4370615 4340577 4370617 4340381 5219005 5219005 5219005 5469081 9854515 PAMS Technical Documentation Transistor DTC143ZE Schottky diode HSMS2825 Schottky diode H
