Dialog DA14680, DA14681, DA1468 Series User Manual

User Manual

DA1468x Range Extender

Daughterboard

UM-B-074

Abstract

This document describes the hardware system setup of a range extender daughterboard based on
the Dialog DA14680/681 Bluetooth® low energy SoC and the Skyworks SKY66112-11 Front End
Module. Target hardware: DA1468x/DA1510x_db_aQFN60 – Board Number: 224-23-D. Target
silicon: DA14680/681.

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Contents

Abstract ................................................................................................................................................ 1

Contents ............................................................................................................................................... 2

Figures .................................................................................................................................................. 3

Tables ................................................................................................................................................... 4

1 Terms and Definitions ................................................................................................................... 5

2 References ..................................................................................................................................... 5

3 Introduction.................................................................................................................................... 6

4 System Overview ........................................................................................................................... 7

4.1 Features ................................................................................................................................ 7

4.2 System Description ............................................................................................................... 8

4.3 System Interface ................................................................................................................... 8

5 Power ............................................................................................................................................ 11

6 Bluetooth Low Energy SoC ........................................................................................................ 12

7 RF Front End ................................................................................................................................ 14

7.1.1 Control Signals .................................................................................................... 14

7.1.2 GPIO Setup ......................................................................................................... 16

7.1.3 Power Amplifier .................................................................................................... 17

7.1.3.1 Power Modes ................................................................................... 19

7.1.3.2 Power Supply ................................................................................... 20

7.1.4 Transmit (TX) Path .............................................................................................. 20

7.1.5 Receive (RX) Path ............................................................................................... 21

7.1.6 Filtering (Optional) ............................................................................................... 21

7.1.7 Antenna................................................................................................................ 22

7.1.8 Resistive Attenuator (Optional) ............................................................................ 23

8 Crystals ........................................................................................................................................ 24

9 QSPI Flash Memory ..................................................................................................................... 24

10 TX Output Power Control Circuit ............................................................................................... 24

11 Reference Design Pin Assignment ............................................................................................ 25

12 Development Mode - Peripheral Pin Mapping .......................................................................... 27

13 PCB Assembly ............................................................................................................................. 28

13.1 DA14681 Range Extender Schematic ................................................................................ 29

13.2 SKY66112-11 Front End Module Schematic ...................................................................... 30

13.3 Bill of Materials .................................................................................................................... 31

14 Application Software Guide: ble_external_host ...................................................................... 33

15 BLE Measurements ..................................................................................................................... 37

15.1 Basic Performance Measurements ..................................................................................... 37

15.1.1 Receiver Sensitivity ............................................................................................. 38

15.1.1.1 Test Description ............................................................................... 38

15.1.1.2 Test Setup ....................................................................................... 38

15.1.1.3 Test Results ..................................................................................... 38

15.1.2 Transmitter Output Power.................................................................................... 40

15.1.2.1 Test Description ............................................................................... 40

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15.1.2.2 Test Setup ....................................................................................... 40

15.1.2.3 Test Results ..................................................................................... 40

15.1.3 Current Consumption ........................................................................................... 41

15.1.3.1 Test Setup ....................................................................................... 41

15.1.3.2 Advertising Mode ............................................................................. 41

15.1.3.3 Connection Mode ............................................................................. 42

15.1.3.4 Extended Sleep Mode ..................................................................... 43

15.2 BLE FCC Measurements .................................................................................................... 44

15.2.1 Maximum Output Power and Antenna Gain (Transmitter) .................................. 45

15.2.1.1 Test Specification ............................................................................ 45

15.2.1.2 Test Setup ....................................................................................... 45

15.2.1.3 Test Results ..................................................................................... 45

15.2.2 Emission Limitations Conducted (Transmitter) .................................................... 47

15.2.2.1 Test Specification ............................................................................ 47

15.2.2.2 Test Setup ....................................................................................... 47

15.2.2.3 Test Results ..................................................................................... 47

15.2.3 Band Edge Emissions Compliance (Transmitter) ................................................ 50

15.2.3.1 Test Specification ............................................................................ 50

15.2.3.2 Test Setup ....................................................................................... 50

15.2.3.3 Test Results ..................................................................................... 50

15.2.4 Emission Limitations Radiated (Transmitter) ....................................................... 52

15.2.4.1 Test Specification ............................................................................ 52

15.2.4.2 Test Setup ....................................................................................... 52

15.2.4.3 Test Results ..................................................................................... 52

Appendix A Application Software Guide: ble_adv_demo ............................................................. 55

Revision History ................................................................................................................................ 59

Figures

Figure 1: PCB of the DA14680/681 Range Extender (224-23-D) ......................................................... 6

Figure 2: Block Diagram of Range Extender (224-23-D) ...................................................................... 8

Figure 3: Range Extender (224-23-D) on a DA1468x Dev.Kit PRO Motherboard ................................ 9

Figure 4: Layout of the Range Extender Daughterboard ...................................................................... 9

Figure 5: DA14680/681 Range Extender Connected to a Communication Interface Board (CIB) ..... 10

Figure 6: SW1 Position for Each Power Scheme ................................................................................ 11

Figure 7: DA14681 Basic System with External QSPI Flash Memory - overview ............................... 13

Figure 8: RF Front End Signal Paths .................................................................................................. 14

Figure 9: SKY66112-11 Control Signal Timing ................................................................................... 15

Figure 10: DCF Signal Programming .................................................................................................. 16

Figure 11: SKY66112-11 Front End Module - overview ...................................................................... 18

Figure 12: SKY66112-11 Gain vs. P

OUT

, LPM2 ................................................................................... 19

Figure 13: Antenna Selection Using P4_0 or a R53 Pull-Down Resistor ............................................ 22

Figure 14: SKY66112-11 Antenna Ports ............................................................................................. 22

Figure 15: ANT1, Printed IFA Antenna and Matching Network (Z4 = 1.8 pF) .................................... 23

Figure 16: Resistive Attenuator Between DA14681 and SKY66112-11 ............................................. 23

Figure 17: Top View of PCBA.............................................................................................................. 28

Figure 18: Bottom View of PCBA ........................................................................................................ 28

Figure 19: Enable FEM Driver in custom_config_qspi.h ..................................................................... 33

Figure 20: Flash Connection to V18P Power Rail in custom_config_qspi.h ....................................... 33

Figure 21: Configure DA14681 Power Output Level at -2 dBm .......................................................... 34

Figure 22: Include hw_rf.h in main.c ................................................................................................... 34

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Figure 23: Set Build Configuration ...................................................................................................... 35

Figure 24: Building Project ble_external_host ..................................................................................... 35

Figure 25: Configuration of correct product id DA14680/1-01............................................................. 36

Figure 26: Programming External Flash Using ble_external_host.bin ................................................ 36

Figure 27: RX Sensitivity, Dirty Transmitter, Payload = 255, VCC2 = 1.2 V, P

IN

= -2 dBm ................. 39

Figure 28: Nominal Average TX Power, VCC2_FEM = 1.2 V ............................................................. 40

Figure 29: Peak Current During a BLE Advertising Event .................................................................. 41

Figure 30: Peak Current During a BLE Connection Event .................................................................. 42

Figure 31: Average Current During Extended Sleep Mode ................................................................. 43

Figure 32: Maximum Output Power, CH00, VCC2 = 1.2 V ................................................................. 45

Figure 33: Maximum Output Power, CH19, VCC2 = 1.2 V ................................................................. 46

Figure 34: Maximum Output Power, CH39, VCC2 = 1.2 V ................................................................. 46

Figure 35: Harmonics Level, Lowest Frequency, CH00 ...................................................................... 48

Figure 36: Harmonics Level, Middle Frequency, CH19 ...................................................................... 48

Figure 37: Harmonics Level, Highest Frequency, CH39 ..................................................................... 49

Figure 38: Lower Band Edge, CH00 ................................................................................................... 50

Figure 39: Upper Band Edge, CH39 ................................................................................................... 51

Figure 40: FCC Radiated Emission Limits .......................................................................................... 52

Figure 41: Emissions in Restricted Band RA 2.31 GHz to 2.39 GHz, CH00 ...................................... 53

Figure 42: Emissions in Restricted Band RB 2.4835 GHz to 2.5 GHz, CH39 .................................... 54

Figure 43: Enable FEM Driver in custom_config_qspi.h ..................................................................... 55

Figure 44: Flash Connection to V18P Power Rail in custom_config_qspi.h ....................................... 55

Figure 45: Configure DA14681 Power Output Level at -2 dBm .......................................................... 56

Figure 46: Include hw_rf.h in main.c ................................................................................................... 56

Figure 47: Set Build Configuration ...................................................................................................... 57

Figure 48: Building Project ble_adv ..................................................................................................... 57

Figure 49: Programming External Flash Using ble_adv.bin ................................................................ 58

Tables

Table 1: Electrical Characteristics ......................................................................................................... 7

Table 2: Jumper/Switch Settings for Power Schemes of DA1468x Dev.Kit PRO Motherboard ......... 11

Table 3: Jumper/Switch Settings for Power Schemes of CIB Board .................................................. 11

Table 4: SKY66112-11 Control Signal Description ............................................................................. 15

Table 5: Truth Table for SKY66112-11 ............................................................................................... 15

Table 6: DCF Signal Configuration ...................................................................................................... 16

Table 7: SKY66112-11 Control Signal and DCF Timer Configuration ................................................ 16

Table 8: SKY66112-11 TX Output Characteristics .............................................................................. 20

Table 9: SKY66112-11 TX RF Power Output (Note 1) ....................................................................... 21

Table 10: Default Configuration ........................................................................................................... 21

Table 11: LNA Modes (Note 1) ............................................................................................................ 21

Table 12: SKY66112-11 Antenna Select Logic ................................................................................... 22

Table 13: Y1 16 MHz Crystal Characteristics ...................................................................................... 24

Table 14: Y2 32 kHz Crystal Characteristics ....................................................................................... 24

Table 15: DA14680/681 aQFN60 Pin Assignment .............................................................................. 25

Table 16: DA1468x Development/Test Mode Pin Mapping ................................................................ 27

Table 17: BOM of DA14681 Range Extender ..................................................................................... 31

Table 18: RX Sensitivity for VCC2 = 1.2 V (Note 1) ............................................................................ 38

Table 19: Nominal Average TX Power, VCC2 = 1.2 V (Note 1) .......................................................... 40

Table 20 Typical Peak Current During Advertising Mode (Note 1) ..................................................... 41

Table 21: Typical Peak Current during Connection Mode (Note 1) .................................................... 42

Table 22: Typical Average Current in Extended Sleep Mode (Note 1) ............................................... 43

Table 23: FCC 15.247 Compliance Pre-Tests Performed .................................................................. 44

Table 24: Maximum (Peak) Output Power (dBm), VCC2 = 1.2 V, CH00, CH19, CH39 ..................... 45

Table 25: Measured Reference Level ................................................................................................. 47

Table 26: Conducted TX Harmonics at CH00, CH19, CH39 .............................................................. 47

Table 27: Emissions Levels in Restricted Areas RA and RB for CH00, CH19 and CH39 .................. 53

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1 Terms and Definitions

BLE Bluetooth low energy
BOM Bill of Materials
CIB Communication Interface Board
CLI Command Line Interface
CSA5 (Bluetooth) Core Specification Addendum 5
DCF Dynamic Control Function
DCR Direct Current Resistance
DCXO Digitally Controlled Crystal Oscillator
DUT Device Under Test
EIRP Effective Isotropic Radiated Power
FEM Front End Module
FSM Finite State Machine
FW Firmware
HW Hardware
IFA Inverted-F Antenna
LNA Low Noise Amplifier
LPM Low Power Mode
LPF Low Pass Filter
PA Power Amplifier
PCBA Printed Circuit Board Assembled
PCB Printed Circuit Board
RF Radio Frequency
RFCU RF Control Unit
RMS Root Mean Square
RX receive(r)
SoC System on Chip
SWD Serial Wire Debug (interface)
TX transmit(ter)
n.a. not available

2 References

[1] Bluetooth Core Specification Addendum 5, 15 December 2015, Bluetooth SIG.
[2] UM-B-060, DA1468x/DA1510x Pro-Development Kit, User Manual, Dialog Semiconductor.
[3] DA14681 Low Power Bluetooth Smart 4.2 SoC, Datasheet, Dialog Semiconductor.
[4] UM-B-065, Bluetooth Smart Communication Interface Board, User Manual, Dialog

Semiconductor.
[5] SKY66112-11, Datasheet, Skyworks Inc.
[6] AN-B-061, DA1468x Application hardware design guidelines, Application Note, Dialog

Semiconductor.

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3 Introduction

The DA1468x/DA1510x_db_aqfn60_FEM_vD (224-23-D) is a reference design for extending the
range of a Bluetooth® low energy system based on the Dialog Semiconductor DA14681 SoC, where
enhanced RF transmitted power is presented. The DA14680/681 Range Extender daughterboard
serves as a reference design to potential customers requesting enhanced BLE RF Output Power up
to +13.5 dBm. Physically, the daughterboard consists of a 4-layer PCBA where the digital and power
interfaces of the DA14680/681 are accessible to the user.

This document presents the system, technical specifications, physical dimensions and test results.

Figure 1: PCB of the DA14680/681 Range Extender (224-23-D)

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4 System Overview

4.1 Features

■ Highly integrated DA14680 or DA14681 Bluetooth low energy 4.2 SoC

■ Can be used stand-alone or as a data pump on a system with an external processor

■ Complies to Bluetooth v4.2, ETSI EN 300 328 and EN 300 440 Class 2 ( Europe), FCC CFR47

Part 15 ( US) and ARIB STD-T66 ( Japan)

■ BLE transmit output power > +10 dBm, compliant with BLE v4.2 + CSA5 (see Ref. [1])

■ Includes two crystal oscillators: 16 MHz (XTAL16M) and 32.738 kHz (XTAL32K)

■ Access to processor via JTAG, SPI, UART or I2C interface

■ 18 general purpose I/Os with programmable voltage levels

■ Operating voltage: 1.7 V to 4.75 V.

■ On-board printed inverted F-type antenna (Figure 4)

■ uFL connector for external antennas (Figure 4)

■ RF connector for conducted measurements (Figure 4)

■ BLE Radio transceiver

1

:

○ +13.5 dBm transmit output power
○ -95.5 dBm receiver sensitivity

■ Supply current

2

:

○ TX : max. current < 59 mA
○ RX: max. current < 10 mA
○ Extended - Sleep current: 4.5 A

■ 43 mm x 43 mm, 4 layer PCBA

■ Operating temperature: –40 ºC to +85 ºC

■ Test FW based on SDK 1.0.8

Table 1: Electrical Characteristics

Parameter3

Value

Average TX power

+13.5 dBm

RX sensitivity4

-95.5 dBm

Max. current consumption in TX mode

59 mA

Max. current consumption in RX mode

10 mA

Average current consumption during sleep mode

4.5 A

1

FCC part 15.247,15.209 compliance.

2

Normal operation using SDK ble_adv_demo application, TX output power +13.5 dBm.

3

Current measured using SDK 1.0.8 ble_adv_demo, configuration CHL = 0, LPM2 (FEM_VCC2 = 1.2 V),

RF_TX_PWR_REG = 2.

4

Dirty transmitter: ON, 1500 packets, payload PRBS9 length 255 bytes.

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4.2 System Description

The system consists of:

● DA14680 or DA14681 SoC in aQFN60 package (the main implementation and testing was done

with DA14681)

● Sky66112-11 RF Front End Module (SKY66112-11_203225G)

● QSPI Data Flash memory (dual package wlcsp-w25q80ew, soic8-W25Q80EWSNIG-default)

● Crystals 16 MHz (or 32 MHz) and 32.768 kHz

● Can be supplied from a Li-Poly battery

● Mating headers for connecting to a DA1468x PRO Motherboard

A system overview is shown in Figure 2.

Sky66112-11

16 MHz CRYSTAL 32.768 kHz CRYSTAL

DA1468x/1510x SoC

Matching

circuit

TX/RX path

Matching

circuit

CSD
CPS
CTX
CRX
CHL
ANT_SEL

1V8 1V8P

Qspi flash

V33

Resistive

attenuator (1)

Low pass

filter (2)

Debug

interface

DA1468x/ 1510x

PMU

FEM control signals

6

VCC1

VCC2

VDD

V33_FEM (4)

Sky66112-11

TX Power control

circuit (3)

1V8

1V8P

VCC2_PA

1V8P

VCC1_PA

V33 VDD_PA

FEM_VCC2

FEM_VCC2

VCC1_PA

VDD_PA

VCC2_PA

Legend:

(1) Resistive attenuator application is possible.
(2) Low pass filter application is possible.
(3) RF TX Output Control Circuit.
(4) Only for DA1510x.

Figure 2: Block Diagram of Range Extender (224-23-D)

4.3 System Interface

DA14680/681 Range Extender daughterboard is plugged on headers J1, J2 of DA1468x PRO
motherboard, as shown in Figure 3.

The PRO motherboard provides UART and JTAG (SWD) interfaces to the DA14680/681, current
measurement circuitry, as well as breakout headers (J3, J4) for the available GPIOs and general
purpose user peripherals. For more details on the functionality and specifications of the motherboard,
refer to user manual UM-B-060 (Ref. [2]).

The system is powered via the Debug USB port (USB2). The daughterboard can also be
independently programmed using an external battery connected to the on board Li-Poly battery
connector (see section 5 for more details). The layout and main features of the daughterboard are
shown in Figure 4.

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Figure 3: Range Extender (224-23-D) on a DA1468x Dev.Kit PRO Motherboard

Figure 4: Layout of the Range Extender Daughterboard

Another option for programming the DA14680/681 Range Extender is to connect the daughterboard
to a CIB (Communication Interface Board) using a 2x10 cable as shown in Figure 5. The CIB

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provides UART and JTAG (SWD) interfaces to the DA14680/681 as well as power supply. If an
external Li-Poly battery is used to supply the daughterboard, jumper J16 on the CIB must be
removed. For more details on the Communication Interface Board, please refer to user manual UM­B-065 (Ref. [4]).

Figure 5: DA14680/681 Range Extender Connected to a Communication Interface Board (CIB)

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5 Power

There are three options for powering the system when using DA1468x Dev.Kit PRO Motherboard:

● The PRO motherboard’s voltage regulator (VLDO, see Ref. [2]) – total current capability approx.

300 mA.

● A Li-Poly rechargeable battery on the PRO motherboard.

● A Li-Poly rechargeable battery on the daughterboard of DA14680/681 range extender.

The power source to the daughterboard is selectable with SW1 as shown in Figure 6.

Figure 6: SW1 Position for Each Power Scheme

The different configurations for each of the power schemes using the DA1468x Dev.Kit PRO
Motherboard are described in Table 2.

Table 2: Jumper/Switch Settings for Power Schemes of DA1468x Dev.Kit PRO Motherboard

Power Scheme

Indication

SW1

J9

USB1

USB2

Motherboard LDO

VBAT

Left

2-3 - Power + debug

Li-Poly Battery mounted
on motherboard

External

battery

Left

1-2

Power + charge

debug

Li-Poly Battery mounted
on daughterboard

External

battery

Right

-

Power + charge

debug

When using the CIB board, there are two options for powering the system:

● Power supply coming from the USB of CIB.

● A Li-Poly rechargeable battery on the daughterboard of DA14680/681 range extender.

The different configurations for the power schemes using the CIB board are described in Table 3.

Table 3: Jumper/Switch Settings for Power Schemes of CIB Board

Power Scheme

Indication

SW1

J16

Power supply from CIB

VBAT or External Battery

Left or Right

connected

Li-Poly Battery mounted on
daughterboard

External battery

Right

not connected

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6 Bluetooth Low Energy SoC

The DA14680/681 is a flexible System-on-Chip for Bluetooth® low energy applications, combining an
application processor, memories, cryptography engine, power management unit, digital and analog
peripherals and a Bluetooth low energy MAC engine and radio transceiver. An overview of the basic
system is shown in Figure 7.

The DA14680/681 is based on an ARM® Cortex®-M0 CPU delivering up to 84 DMIPS and provides a
flexible memory architecture, enabling code execution from embedded memory (RAM, ROM) or non­volatile memory (OTP or external Quad-SPI Flash). The DA14680 incorporates a QSPI Data Flash
memory in the package, whereas the DA14681 requires an external QSPI Data Flash.

The advanced power management unit of the DA14681 enables it to run from primary and secondary
batteries, as well as provide power to external devices. The on-chip charger and state-of-charge fuel
gauge allow the DA14680/681 to natively charge rechargeable batteries over USB.

An on-chip PLL enables on-the-fly tuning of the system clock between 16 MHz and 96 MHz to meet
high processing requirements. The system runs at 32 kHz LP clock during low power sleep modes or
it goes to clock less deep sleep mode to save power.

The DA14680/681 SoC power management subsystem consists of:

● VBUS: Is the battery charger input as well as the USB bus voltage. A decoupling capacitor equal

or less than 4.7 F is placed close to VBUS pin.

● VBAT1: An external battery is connected on this pin. A 1 F decoupling capacitor (C10) is

required close to the pin (0402 package, 6.3 V). Voltage range for VBAT1 is 1.7 V to 4.75 V.

● VBAT2: Is the input of the SIMO DC-DC converter. It is shorted externally with VBAT1. A 1 F

decoupling capacitor (C8) is required next to the pin (0402 package, 6.3 V).

● V33: Output voltage rail, 3.3 V. A decoupling ceramic capacitor of 4.7 F (C3), (0402 package,

6.3 V) is placed. V33 cannot be turned off.

● SIMO DC-DC converter outputs are: V18, V18P, V12, V14. The inductor needed for DC-DC

operation is placed externally. A low DCR inductor (L1) of 470 nH, 0805 is connected on pins
LX/LY.

● V18 and V18P: These voltage rails can deliver power to external devices, even when the system

is in sleep mode. Decoupling ceramic capacitors (C4, C5) of 10 F (0603 package, 16 V), are
placed as close as possible to the V18 and V18P pins. The current delivery capability of the V18
and V18P power rails is 75 mA in active mode, while it is 2 mA in sleep mode.

● V12: Power rail supplies the digital core of the DA14680/681 and delivers up to 50 mA at 1.2 V

when in active mode. A 4.7 F decoupling capacitor (C6) is used (0402 package, 6.3 V).

● V14: Power rail delivers up to 20 mA at 1.4 V and should not be used to supply external devices.

A 4.7 F decoupling capacitor (C7) is placed close to the V14 pin (0402 package, 6.3 V).

● V14_RF: Input pin. It is shorted to V14 on the PCB layout. V14_RF powers the RF circuits via a

number of dedicated internal LDOs. A 4.7 F decoupling capacitor (C9) is placed as close to the
V14_RF pin as possible.

● VDDIO: Flash interface supply voltage. It is connected to the same power rail as the Flash

memory. A 1 F decoupling capacitor (C1), is added (0402 package, 6.3 V).

The DA14680/681 radio transceiver characteristics are:

● 2.4 GHz CMOS transceiver with integrated balun

● 50  matched single wire antenna interface

● Transmit output power in the range of 0 dBm to -4 dBm

● -93 dBm BLE receiver sensitivity

● Supply current at VBAT1 (3 V) for the RF part:

○ TX: 3.4 mA
○ RX: 3.7 mA

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Figure 7: DA14681 Basic System with External QSPI Flash Memory - overview

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7 RF Front End

This part of the design implements the amplification of the RF transmitted signal while the transmitted
harmonics as well as the TX spurious emissions remain within the FCC/ETSI specification. The RF
Front End Module (FEM) used is SKY66112-11 of Skyworks (Ref. [5]).

The operation of RF front end is controlled by the DA14680/681 SoC using control signals. During
the operation of the FEM there are three available RF paths:

● TX path through the amplifier

● RX path through the LNA of the PA

● TX/RX bypass path, where both PA/LNA are bypassed during transmission and reception.

The amplifier path is enabled during transmission. The RF signal passes through the PA and the RF
matching network and is transmitted through one of the two available antenna ports. A resistive
attenuator and a low pass filter can also be included in the amplifier path if needed. In the bypass
path, the RF signal received at the antenna is driven directly to the BLE transceiver. In the RX LNA
path the received signal passes through SKY66112-11 LNA, which has a receive gain of 11 dB.

ANT1

2.4 GHz printed antenna

Matching

circuit

TX amplifier path

BLE 2402..2480 MHz

CSD

CPS

CTX

CRX

CHL

ANT_SEL

Resistive

attenuator (1)

Low pass

filter (2)

Matching

circuit

ANT2

uFL connector

DA14681

aQFN60

BLE SoC

TX/RX bypass path

RX LNA path

SKY66112-11

Legend:

(1) Resistive attenuator application is possible.
(2) Low pass filter application is possible.

Figure 8: RF Front End Signal Paths

The amplifier has three different voltage rails (VCC1, VCC2 and VDD). The TX power output is tuned
by modifying the VCC2 supply rail voltage as well as the power level at its input. The basic power
levels for the PA are:

● TX P

OUT

= +21 dBm @ VCC2 = 3.0 V, PIN = -1 dBm

● TX P

OUT

= +16 dBm @ VCC2 = 1.8 V, PIN = -3 dBm

● TX P

OUT

= +13 dBm @ VCC2 = 1.2 V, PIN = -3 dBm

7.1.1 Control Signals

The SKY66112-11 has a number of digital control signals that need to be set/reset by the
DA14680/681. They are currently being controlled by Dynamic Control Function (DCF) signals of the
DA14680/681 RF control unit. The DCF signals are normal GPIOs controlled by timers within the
radio. Their functionality is explained in Table 4, while their timing is shown in Figure 9.

The digital control signals are compatible with 1.6 V to 3.6 V CMOS levels and are supplied from the
VDD voltage rail.

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Table 4: SKY66112-11 Control Signal Description

Control Signal

Function

Mode of Operation

CSD

FEM Enable signal

0: all off (sleep mode)

1: FEM enabled

CRX

RX enable

0: RX off

1: RX on with LNA

CPS

Bypass mode

0: Bypass disabled

1: Bypass mode for TX or RX

CTX

TX Enable

0: TX off

1: TX on (Low or High power)

CHL

TX Power level

0: TX Low power level
1: TX High power level

ANT_SEL

Antenna select signal

0: ANT1
1: ANT2

Table 5: Truth Table for SKY66112-11

Mode

Description

CSD

CPS

CRX

CTX

CHL

0

All off (sleep mode) (Note 1)

0 X X X X

1

Receive LNA mode

1 0 1 0 X

2

Transmit high power mode

1 0 X 1 1

3

Transmit low power mode

1 0 X 1 0

4

Receive Bypass mode

1 1 1 0 X

5

Transmit Bypass mode

1 1 X 1 X

6

All off (sleep mode)

1 X 0 0 X

Note 1 All controls must be at logic 0 to achieve the specified sleep current.

TX/RX_EN

RF

CTX

47 us

CRX

CSD

CPS

CHL

20 us1 us

20 us

20 us

20 us

47 us

47 us

47 us

Figure 9: SKY66112-11 Control Signal Timing

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The control signal timing aims to keep the signals at logic 0 as long as possible to achieve better
power results. This can be achieved by assigning the control signals to DCF timers (see Table 7)

Decoding of the signals results in the following signal description:

● CTX: Enable any TX related operation

● CRX: Enable any RX related operation

● CHL: Define TX High (1) or Low (0) power mode

● CPS: Enable bypass TX/RX mode

● CSD: Enable FEM

7.1.2 GPIO Setup

The RF Control Unit (RFCU) of DA14680/681 provides the capability of controlling five signals which
can be used for controlling the SKY66112-11. The DCFs can be output on any GPIO by using PID
numbers 55 to 59. The five DCF signals can be extracted from the RFCU to any pin by programming
the PID values in the Pxx_MODE_REG registers, as follows:

Table 6: DCF Signal Configuration

Function

PORT0_DCF

PORT1_DCF

PORT2_DCF

PORT3_DCF

PORT4_DCF

PID

55

56

57

58

59

Figure 10: DCF Signal Programming

Table 7: SKY66112-11 Control Signal and DCF Timer Configuration

Mode

DA1468x GPIO

SKY66112-11

Comments

FEM enable

P4_3

CSD

GPIO or DCF timer 29 (PORT2_DCF)

TX enable

P4_5

CTX

DCF timer 27 (PORT0_DCF)

PA High Gain

P4_4

CHL

GPIO or DCF timer 31 (PORT4_DCF)

RX enable

P4_2

CRX

DCF timer 28 (PORT1_DCF)

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Mode

DA1468x GPIO

SKY66112-11

Comments

PA or LNA Bypass

P4_6

CPS

GPIO or DCF timer 30 (PORT3_DCF)
This signal can be fixed at logic 0 or 1 through

a pull-down or pull-up resistor.

ANT_SEL

P4_0

ANT_SEL

GPIO
This signal can be fixed at logic 0 through a

pull-down resistor.

7.1.3 Power Amplifier

The SKY66112-11 is a fully integrated RF Front End Module (FEM) designed for Smart Energy
applications. The device provides PA, LNA, an integrated inter-stage matching and harmonic filter,
and digital controls compatible with 1.6 V to 3.6 V CMOS levels.

The RF blocks operate over a wide supply voltage range from 1.2 V to 3.6 V that allows the
SKY66112-11 to be used in battery powered applications over a wide spectrum of the battery
discharge curve. The basic characteristics for the SKY66112-11 are:

● Three voltage rails (VCC1, VCC2 and VDD)

● TX power output tuning thru power rail voltage modification

○ TX P

OUT

= +21 dBm @ VCC2 = 3.0 V / 115 mA, Pin = -1 dBm

○ TX P

OUT

= +16 dBm @ VCC2 = 1.8 V / 60 mA, Pin = -3 dBm

○ TX P

OUT

= +13 dBm @ VCC2 = 1.2 V / 45 mA, Pin = -3 dBm

● LNA with gain 11 dB

● Receive Noise Figure = 2 dB

● Bypass mode of operation (-2 dB)

● Two Antennas Ports

An overview of the SKY66112-11 Front End Module is shown in Figure 11.

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Figure 11: SKY66112-11 Front End Module - overview