Evaluating the ADF4368

Contents

Supported Evaluation Boards

Overview

The EV-ADF4368SD1Z evaluates the performance of the ADF4368 fractional frequency synthesizer with an integrated voltage controlled oscillator (VCO) for phase-locked loops (PLLs). The EVADF4368SD1Z contains the ADF4368 frequency synthesizer with an integrated VCO, a USB interface, power supply connectors, on-board reference oscillator, propagation delay calibration paths, and Subminiature Version A (SMA) connectors. The outputs are AC-coupled with 50 Ω transmission lines making the outputs suitable to drive 50 Ω impedance instruments.

Full specifications on the ADF4368 frequency synthesizer are available in the ADF4368 data sheet available from Analog Devices Inc. and must be consulted with this user guide when using the EV-ADF4368SD1Z evaluation board.

Applications

  • High Performance Data Converter Clocking

  • Wireless infrastructure (MC-GSM, 5G, 6G)

  • Test and Measurement

Hardware Specifications

Power Supply Requirements

The EV-ADF4368SD1Z is powered by a 6 V power supply connected to the J12 SMA connector, or the J14 banana plug and GND to the J15 banana plug.

Reference Input Requirements

The EV-ADF4368SD1Z has an on-board, 122.88 MHz, ultra low phase noise, sine-wave oscillator to drive the ADF4368 reference input. Single-ended oscillator output is connected to the REFP pin, and the REFN pin is AC grounded. This oscillator is used by default on the board.

The reference input can also be driven externally via a pair of SMA connectors, REFN (J4) and REFP (J11). When using the external reference, disable the on-board oscillator supply. This will require board modifications, please refer to the EVAL-ADF4368 for details.

Pin Description

Please see the following table for the pin assignments for the interface connectors (P5 and P2).

P5:

Pin

Name

Description

1

VIN

Not connected

2

NC

Not connected

3

GND

Connected to Ground

4

GND

Connected to Ground

5

USB_VBUS

Not connected

6

GND

Connected to Ground

7

PAR_D23

Not connected

8

PAR_D21

Not connected

9

PAR_D19

Not connected

10

PAR_D17

Not connected

11

GND

Connected to Ground

12

PAR_D14

Not connected

13

PAR_D13

Not connected

14

PAR_D11

Not connected

15

PAR_D9

Not connected

16

PAR_D7

Not connected

17

GND

Connected to Ground

18

PAR_D5

Not connected

19

PAR_D3

Not connected

20

PAR_D1

Not connected

21

PAR_RD_N

Not connected

22

PAR_CD_N

Not connected

23

GND

Connected to Ground

24

PAR_A3

Not connected

25

PAR_A1

Not connected

26

PAR_FS3

Not connected

27

PAR_FS1

Not connected

28

GND

Connected to Ground

29

SPORT_TDV0

Not connected

30

SPORT_TVD1

Not connected

31

SPORT_DR1

Not connected

32

SPORT_DT1

Not connected

33

SPI_D2

Not connected

34

SPI_D3

Not connected

35

SERIAL_INT

Not connected

36

GND

Connected to Ground

37

SPI_SEL_B_N

Not connected

38

SPI_SEL_C_N

Not connected

39

SPI_SEL1/SPI_SS_N

Not connected

40

GND

Connected to Ground

41

SDA_1

Not connected

42

SCL_1

Not connected

43

GPIO0

Connected to LKDET of the ADF4368

44

GPIO2

Connected to ENRFOUT2 of the ADF4368

45

GPIO4

Connected to MUXOUT of the ADF4368

46

GND

Connected to Ground

47

GPIO6

Not connected

48

TMR_A

Looped back to TMR_B

49

TMR_C

Not connected

50

NC

Not connected

51

NC

Not connected

52

GND

Connected to Ground

53

NC

Not connected

54

NC

Not connected

55

NC

Not connected

56

EEPROM_A0

Connected to A0 of the EEPROM

57

RESET_OUT_N

Not connected

58

GND

Connected to Ground

59

UART_RX

Not connected

60

RESET_IN_N

Not connected

61

BMODE1

Not connected

62

UART_TX

Not connected

63

GND

Connected to Ground

64

SLEEP_N

Not connected

65

WAKE_N

Not connected

66

NC

Not connected

67

NC

Not connected

68

NC

Not connected

69

GND

Connected to Ground

70

NC

Not connected

71

CLKOUT

Not connected

72

TMR_D

Not connected

73

TMR_B

Looped back to TMR_A

74

GPIO7

Not connected

75

GND

Connected to Ground

76

GPIO5

Not connected

77

GPIO3

Not connected

78

GPIO1

Not connected

79

SCL_0

Connected to the SCL of the EEPROM

80

SDA_0

Connected to the SDA of the EEPROM

81

GND

Connected to Ground

82

SPI_CLK

Connected to SCLK of the ADF4368

83

SPI_MISO

Connected to SDO of the ADF4368

84

SPI_MOSI

Connected to SDIO of the ADF4368

85

SPI_SEL_A_N

Connected to CSB of the ADF4368

86

GND

Connected to Ground

87

SPORT_TSCLK

Not connected

88

SPORT_DT0

Not connected

89

SPORT_TFS

Not connected

90

SPORT_RFS

Not connected

91

SPORT_DR0

Not connected

92

SPORT_RSCLK

Not connected

93

GND

Connected to Ground

94

PAR_CLK

Not connected

95

PAR_FS2

Not connected

96

PAR_A0

Not connected

97

PAR_A2

Not connected

98

GND

Connected to Ground

99

PAR_INT

Not connected

100

PAR_WR_N

Not connected

101

PAR_D0

Not connected

102

PAR_D2

Not connected

103

PAR_D4

Not connected

104

GND

Connected to Ground

105

PAR_D6

Not connected

106

PAR_D8

Not connected

107

PAR_D10

Not connected

108

PAR_D12

Not connected

109

GND

Connected to Ground

110

PAR_D15

Not connected

111

PAR_D16

Not connected

112

PAR_D18

Not connected

113

PAR_D20

Not connected

114

PAR_D22

Not connected

115

GND

Connected to Ground

116

VIO

Connected to 3V3

117

GND

Connected to Ground

118

GND

Connected to Ground

119

NC

Not connected

120

NC

Not connected

P2:

Pin

Name

Description

1

CSB

Connected to CSB of the ADF4368

2

NC

Not connected

3

SDIO

Connected to SDIO of the ADF4368

4

NC

Not connected

5

SDO

Connected to SDO of the ADF4368

6

NC

Not connected

7

SCLK

Connected to SCLK of the ADF4368

8

CSB

Connected to CSB of the ADF4368

9

GND

Connected to Ground

10

NC

Not connected

No-OS Build Setup

Please see: https://wiki.analog.com/resources/no-os/build

No-OS Supported Examples

The initialization data used in the examples is taken out from: Project Common Data Path

The macros used in Common Data are defined in platform specific files found in: Project Platform Configuration Path

Basic example

This example initializes the ADF4368 with the configurations provided in the above mentioned common files and applies them to the IC. By default reference frequency is provided by the local oscillator of the board and both channels are active with a power level of 9. Subsequently the example sets a test frequency of 8 GHz and adjusts the phase by 4ps.

In order to build the basic example make sure you are using this command:

make EXAMPLE=basic

IIO example

This project provide an IIOD demo for the ADF4368. It launches an IIOD server on the mother platform it runs on allowing the user to connect via an IIOD client. Using IIO-Oscilloscope, the user can configure the ADF4368.

If you are not familiar with ADI IIO Application, please take a look at: IIO No-OS

The No-OS IIO Application together with the No-OS IIO ADF4368 driver take care of all the back-end logic needed to setup the IIO server.

This example initializes the IIO device and calls the IIO app as shown in: IIO Example

In order to build the IIO project make sure you you are using this command:

make EXAMPLE=iio_example

No-OS Supported Platforms

Mbed Platform

Used hardware

Connections:

The SDP connector of the SDP-K1 needs to be connected to P5 of the EVAL-ADF4368 board. Additionally a 6V power supply needs to be connected to either J14 - J15 or to J12 (the SMA interface).

Build Command

# add the arm gcc to the PATH variable
export PATH=</path/to/arm/gcc/bin>:$PATH
# to delete current build
make reset
# to build the project
make PLATFORM=mbed
# to flash the code
make
# copy the adf4368.bin to the mounted SDP-K1
cp build/adf4368.bin </path/to/SDP-K1/mounted/folder>