Analog Devices AD9912 specifications Register 0x0105-S-Divider, Register 0x0106-S-Divider, FTW0

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AD9912

CMOS OUTPUT DIVIDER (S-DIVIDER) (REGISTER 0x0100 TO REGISTER 0x0106)

Register 0x0100 to Register 0x0103—Reserved

Register 0x0104—S-Divider

Table 21.

Bits	Bit Name	Description
[7:0]	S-divider	CMOS output divider. Divide ratio = 1 − 65,536. If the desired S-divider setting is greater than 65,536,
		or if the signal on FDBK_IN is greater than 400 MHz, then Bit 0 in Register 0x0106 must be set. Note that
		the actual S-divider is the value in this register plus 1; so to have an S-divider of 1, Register 0x0104 and
		Register 0x0105 must both be 0x00. Register 0x0104 is the least significant byte.

Register 0x0105—S-Divider (Continued)

Table 22.

Bits	Bit Name	Description

[15:8]	S-divider	CMOS output divider. Divide ratio = 1 − 65,536. If the desired S-divider setting is greater than 65,536,
		or if the signal on FDBK_IN is greater than 400 MHz, then Bit 0 in Register 0x0106 must be set. Note that
		the actual S-divider is the value in this register plus 1; so to have an S-divider of 1, Register 0x0104 and
		Register 0x0105 must both be 0x00. Register 0x104 is the least significant byte.

Register 0x0106—S-Divider (Continued)

Table 23.

Bits	Bit Name	Description
7	Falling edge triggered	Setting this bit inverts the reference clock before S-divider.
[6:1]	Reserved	Reserved.
0	S-divider/2	Setting this bit enables an additional /2 prescaler. See the CMOS Output Divider (S-Divider)section.
		If the desired S-divider setting is greater than 65,536, or if the signal on FDBK_IN is greater than 400 MHz,
		this bit must be set.

FREQUENCY TUNING WORD (REGISTER 0x01A0 TO REGISTER 0x01AD)

Register 0x01A0 to Register 0x01A5—Reserved

Register 0x01A6—FTW0 (Frequency Tuning Word)

Table 24.

Bits	Bit Name	Description

[7:0]	FTW0	These registers contain the FTW (frequency tuning word) for the DDS. The FTW determines the ratio
		of the AD9912 output frequency to its DAC system clock. Register 0x01A6 is the least significant byte
		of the FTW. Note that the power-up default is defined by start-up Pin S1 to Pin S4. Updates to the FTW
		results in an instantaneous frequency jump but no phase discontinuity.

Register 0x01A7—FTW0 (Frequency Tuning Word) (Continued)

Table 25.

Bits	Bit Name	Description

[15:8]	FTW0	These registers contain the FTW (frequency tuning word) for the DDS. The FTW determines the ratio
		of the AD9912 output frequency to its DAC system clock. Register 0x01A6 is the least significant byte
		of the FTW. Note that the power-up default is defined by start-up Pin S1 to Pin S4. Updates to the FTW
		results in an instantaneous frequency jump but no phase discontinuity.

Register 0x01A8—FTW0 (Frequency Tuning Word) (Continued)

Table 26.

Bits	Bit Name	Description
[23:16]	FTW0	These registers contain the FTW (frequency tuning word) for the DDS. The FTW determines the ratio
		of the AD9912 output frequency to its DAC system clock. Register 0x01A6 is the least significant byte
		of the FTW. Note that the power-up default is defined by start-up Pin S1 to Pin S4. Updates to the FTW
		results in an instantaneous frequency jump but no phase discontinuity.

Rev. D Page 34 of 40

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Contents Applications FeaturesBasic Block Diagram General DescriptionTable of Contents DC Specifications SpecificationsParameter Min Typ Max Unit Test Conditions/Comments System Clock Input Total Power DissipationClock Output Drivers AC Specifications Parameter Min Typ Max Unit Test Conditions/CommentsAvss − ESD Caution Absolute Maximum RatingsThermal Resistance Parameter RatingPIN Configuration and Function Descriptions Input Pin No Output Pin Type Mnemonic DescriptionGND Avss ResetIoupdate OutbTypical Performance Characteristics Video BWAbsolute Phase Noise Using Hstl Driver DDS Run at 200 Msps for 10 MHz Plot Absolute Phase Noise of Unfiltered DAC Output, fOUT = 63 MHz Cmos Output Driver Waveform @ 3.3 INPUT/OUTPUT Termination Recommendations Overview Theory of OperationDirect Digital Synthesizer DDS Solving this equation for FTW yields DIGITAL-TO-ANALOG DAC OutputReconstruction Filter 1024 Fdbkin Inputs DAC Spectrum vs. Reconstruction Filter ResponseFunctional Description Sysclk InputsSysclk PLL Doubler Detail of Sysclk Differential Inputs Sysclk PLL MultiplierSysclk PLL multiplier has a 1 GHz VCO at its core External Loop Filter Sysclk PLLOutput Clock Drivers and 2× Frequency Multiplier Harmonic Spur ReductionSpur Reduction Circuit Diagram Thermal Performance Thermal ParametersPOWER-ON Reset POWER-UPDefault Output Frequency on POWER-UP Power Supply Partitioning SuppliesSerial Control Port PIN Descriptions Serial Control PortOperation of Serial Control Port Read MSB/LSB First TransfersInstruction Word 16 Bits Operations are changed to LSB first orderSerial Control Port, 16-Bit Instruction Word, MSB First I15 I14 I13 I12 I11 I10 A12 A11 A10Parameter Description Register MAP PLLHSR-A Power-up default is defined by the start-up pins Register 0x0000-Serial Port ConfigurationRegister 0x0010-Power-Down and Enable Register DescriptionsRegister 0x0020-N-Divider Register 0x0011-Reserved Register 0x0012-Reset AutoclearingRegister 0x0013-Reset Not Autoclearing Register 0x0021-Reserved Register 0x0022-PLL ParametersRegister 0x0105-S-Divider Register 0x01A7-FTW0 Frequency Tuning WordRegister 0x01A8-FTW0 Frequency Tuning Word Register 0x0106-S-DividerRegister 0x01AB-FTW0 Frequency Tuning Word Register 0x01A9-FTW0 Frequency Tuning WordRegister 0x01AA-FTW0 Frequency Tuning Word Register 0x01AC-PhaseRegister 0x040C-DAC Full-Scale Current Register 0x0200-HSTL DriverRegister 0x0201-CMOS Driver Register 0x040D to Register 0x0410-ReservedRegister 0x0505-Spur B Register 0x0503-Spur aRegister 0x0504-Spur a Register 0x0506-Spur BOutline Dimensions AD9912BCPZ1 Model Temperature Range Package Description Package OptionOrdering Guide AD9912BCPZ-REEL71Rev. D Page 40