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Figure 20 Burst-mode reading from the flash. Note that the address only is sent ones. The flash keeps sending data to the UPP as long as the CS-signal and CLK are valid.

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Parameter Supply voltage (Vcc) (operational voltage is: 1.7 ­1.9) VPP and RESET -0.5 V to +12.5 Volt Rating -0,5 V to +4,0 Volt Remarks Minimum DC voltage on input or I/O pins is -0.5 V Minimum DC input voltage on pins VPP, and RESET is -0.5 V No more than one output may be shorted to ground at a time. Duration of the short circuit should not be greater than one second. Minimum DC voltage on input or I/O pins is -0.5 V

Output Short Circuit Current

100 mA

Voltage with Respect to Ground. All pins except VPP and RESET

0.5 V to Vcc + 0.5 Volt

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Pin 1 Name Parameter Min 1.05 Typ 3.25 Max 3.36 26 0.9*VSIM 0 2.8 3.0 VSIM 0.15*VSIM 3.2 25 1.8V SIM Card 1.6 1.8 2.0 25 4 6 GND DATA GND Voh Vol Vih Vil 0 0.9*VSIM 0 0.7*VSIM 0 0 VSIM 0.15*VSIM VSIM 0.15*VSIM V mA V mA V V Supply voltage Icc, 4MHz Supply voltage Icc, 4MHz Ground SIM data Trise/Tfall max 1us Unit MHz ns V SIM reset SIM clock Notes SIMCLK Frequency Trise/Tfall SIMRST Voh Vol 3 VSIM 3V SIM Card

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CM

PhoNet Pipe Service PhoNet Router PhoNet Name Service

Bluetooth Media Module Bluetooth HW driver Bluetooth MCM

Figure 23 SW interface diagram

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Level shift MBUS MBUS FBUS-Tx FBUS-Rx Men IF

Main Flash

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FBUS-Tx FBUS-Rx

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Figure 25 BT102 HW interface

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1.80 0.54 32773

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Power control VBBEN 49 SLEEPX 48 OSCON 31 GND 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 16, 17, 13, 14, 15, 19, 24, 29, 33, 39, 43, 47, 51, 56 VCC 52, 53, 54 VREG 6 VDD 45 VPP 41 VAPPL 32 MCM VDD UEM Vio MCM Voltage 1.80 V UEM Vflash1 MCM MCM VPP MCM Voltage 1.80 V Programming voltage supply Supply for application IF Voltage 1.80 V MCM Voltage 2.70 2.86 V Vbatt MCM Voltage 2.95 5.20 V UEM Vio AND circuit MCM MCM Logic "1" Logic "0" AND circuit Logic "1" Logic "0" Voltage 1.40 0 1.40 0 0 1.80 0.20 1.80 0.20 V V V V V MCM Voltage 1.40 1.80 V Stan2 regulators enable Active mode = "1" Reflects MCM status. Active mode = "1" Ground reference

Main power supply input Regulated power supply input Supply for VPP

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Mjoelner input UPP output Mjoelner output UPP input Mjoelner input Logic "0" UPP output Mjoelner output UPP input

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RFCLK
RFICCNTRL(0)

UPP
RFBUSCLK

Mjoelner
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Logic "1" Mjoelner input UPP output Logic "0" Mjoelner input UPP output

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Transmitter power control enable.

RESET
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UPP
GENIO6

Mjoelner
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Logic "1" Mjoelner input UPP output Logic "0" Mjoelner input UPP output

Reset to RF chip. Active low.

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System clock for the Bluetooth module.

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VR3 on to stable clock @ MCM input

RFCLK

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System clock Upp input req. Biased in UPP
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RFCONV(0)

RF / BB analogue signals Mjoelner
RXIP

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Max input Voltage swing Nominal Voltage swing Input DC level Signal frequency Input BW

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1.4

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Differential complex RX BB signal

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RFCONV(1)

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RFCONV(3)

Mjoelner
RXQM

UEM
RXQINN

270,8 kHz 3

TXIOUTP
RFCONV(4)

UEM
TXIOUTP

Mjoelner Max Differential
TXIP

2.15 2.2

2.25

Vpp

output swing (ref.
TxIN)

TXIOUTN
RFCONV(5)

UEM
TXIOUTN

Mjoelner Input diff. Swing
TXIN (ref. TxIN)

1,0 1.0 1.20 1.25 200 67,7

Vpp Vdc kHz

Differential complex TX signal (programable voltage swing)

TXQOUTP
RFCONV(6)

UEM
TXQOUTP

Mjoelner
TXQP

DC level Source impedance

TXQN
RFCONV(7)

UEM
TXQOUTN

Mjoelner Signal frequency
TXQN

RFAUXCONV(2:0)

RF / BB analogue control signals

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PAMS Technical Documentation 7DEOH $QDORJXH VLJQDOV

6LJQDO QDPH TXC
RFAUXCONV(0)

)URP UEM
AUXOUT

7R

3DUDPHWHU

0LQ

7\S

0D[ 2,4 2.55 200 V

8QLW

1RWHV Transmitter power control

Mjoelner Output voltage 0 0.1 TXC Source impedance Resolution Reference 10 Auxref

Bits

(VrefRF01 ?)
Power coef. Range. Recom. Power Coef. @ pwr.lvl.5 (0 pcn) Recom.Power Coef. @ pwr.lvl.19 (15 pcn) Recom.Power Coef @ Base level
*

0,05 0,7

0,94 0,9

Vtxc/ Vtxc_max Vtxc/ Vtxc_max

0,1

0,2

Vtxc/ Vtxc_max

0,1

0,2

Vtxc/ Vtxc_max

* Power coeficient is defined as the relative TXC voltage level wrt. Max voltage. Power coeff.= Actual dac div. By 1023 = actual

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6LJQDO QDPH Regulators VR1A UEM
VR1A

)URP

7R

3DUDPHWHU RF regulators

0LQ

7\S

0D[

8QLW

1RWHV

Mjoelner UEM Output Voltage VDDCP Mjoelner Input Voltage UEM output Load Current UEM Load Capacitance
Settling Time

4.6 2.64 0

4.75 2.78
*

4.9 4.9 5

V V mA
) nF m uS

Supply to : Charge pump

800 1000 1200
20
300+t d2

600

ESR Sleep to Active

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6LJQDO QDPH VR2 )URP UEM
VR2

NPL-1 2 - Baseband System

7R Mjoelner
VDDTX VDDDIG

3DUDPHWHU
UEM Output

0LQ
2.70

7\S
2.78

0D[
2.86 V

8QLW

1RWHV
Supply to : TX ­ chain Modulator RF-BB digital interface

Mjoelner Input Voltage
Load Current

2.64
0.1

2.78
#

2.86 100

V mA

Load Capacitance Settling Time VR3 UEM
VR3

800 1000 1200 ) nF 20 10 2.70 2.64 0.1 2.78 2.78
)

600

m uS V V mA

ESR Sleep to Active Supply to : LPRFCLK driver, XO and baseband buffer

Mjoelner Input Mjoelner Voltage Load Current VDDXO
VDDBBB

LPRFCLK driver &

UEM Output voltage

2.86 2.86 20

Load Capacitance Settling Time

800 1000 1200 ) nF 20 600 100 10 ? m us us 2.78 2.78
)

ESR Off to on Sleep to Active ? Supply to :
RX

VR4

UEM
VR4

Mjoelner UEM Output voltage VDDRXBB Mjoelner Input Voltage Load Current

2.70 2.64 0.1 2.70 2.64 0.1

2.86 2.86 50 2.86 2.86 50

V V mA V V mA

VR5

UEM
VR5

Mjoelner UEM Output voltage VDDPRE
VDDLO VDDPLL

2.78 2.78
)

Supply to : Prescaler

Mjoelner Input Voltage Load Current Load Capacitance Settling Time

800 1000 1200 ) nF 20 10 2.70 2.64 0.1 2.78 2.78
)

600

m uS V V mA

ESR Sleep to Active Supply to : RX

VR6

UEM
VR6

Mjoe