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dc1846af

DEMO MANUAL DC1846A

QUICK START PROCEDURE

DC1846A RECONFIGURATION

Troubleshooting

If the red LED does not illuminate, follow the instructions 

below:
1. Verify  that  you  are  able  to  communicate  with  the 

DC1846A.  The  bottom  status  line  in  FracNWizard 

should read “LTC6947” and “Comm Enabled”. Refer 

to FracNWizard’s Troubleshoot and Help if not.

2. Verify that the 3.3V, 5V and V+VCO have the correct 

voltages on them and that the reference frequency is 

applied to the REF+ SMA input.

If the red LED is on but you cannot detect an RF output, 

make sure the DC1846A jumper JP1 is at the 3.3V position. 

Run Help -> Troubleshoot in FracNWizard if the problem 

is not resolved. 

The DC1846A is flexible and allows the use of a variety of 

VCOs and the choice to employ either an active or pas-

sive loop filter. The following covers the hardware recon-

figuration of the DC1846A. Refer to FracNWizard’s Help 

and the LTC6947 data sheet to better understand how to 

change programmed parameters on the DC1846A.

Installing Different Tunable Devices

The DC1846A permits the use of different tunable oscil-

lators, such as VCOs and VCXOs. There are two different 

oscillator footprints on the board: U3, which accommodates 

the popular 0.5 

×

 0.5 in. package, and U4, which accom-

modates another common 14mm 

×

 9 mm package with 

four or six pins. An external connectorized VCO can also 

drive the LTC6947 through J5. Table 1 gives options to 

customize the DC1846’s VCOs. When using an active loop 

filter, an additional pole is required in the loop filter to limit 

the op amp’s noise contribution to the VCO phase noise.

Selecting Loop Filter Type

The DC1846A can use either an active or a passive loop 

filter, depending upon the application. Some VCO tuning 

voltage ranges are greater than the LTC6947 charge pump 

voltage range (refer to the LTC6947 data sheet). In such 

cases, an active loop filter using an op amp can deliver 

the required tuning voltage. Table 2 summarizes these 

options.  FracNWizard  helps  determine  the  component 

values listed in this table.

Table 1.  Oscillator Options

TUNABLE 

DEVICE

SELECTION 

COMPONENTS

RESISTOR FOR 

ADDITIONAL POLE

CAPACITOR FOR 

ADDITIONAL POLE

POWER

ENABLE PIN OR 

REMARKS

U3*

C26 

 100pF, depopulate 

R2_F3, C25 and C28*

R2_F2 = 0Ω for passive 

loop filter*
R2_F2 = 75Ω for active 

loop filter

C3_F2 = Open for passive 

loop filter*
Pick C3_F2 such that  

1/(2π 

×

 R2_F2 

×

 C3_F2) 

 

15 × the loop bandwidth in 

Hz for active loop filter

Determined by U3 

device power supply 

specification, up to 24V 

applied to V+VCO turret

U4

C28 

 100pF, depopulate 

R2_F2, C25 and C26

R2_F3 = 0Ω for passive 

loop filter
R2_F3 

 75Ω for active 

loop filter

C3_F3 = Open for passive 

loop filter
Pick C3_F3 such that  

1/(2π 

×

 R2_F3 

×

 C3_F3) 

 

15 

×

 the loop bandwidth in 

Hz for active loop filter

Determined by U4 

device power supply 

specification, up to 24V 

applied to V+VCXO turret

Use EN turret to control 

pin 2 of U4 if needed

External

C25 

 100pF, R15 = 0Ω 

Ohms, depopulate R13, 

C26 and C28

-

-

-

Selection components 

are for an active loop 

filter. Connect the 

external VCO output to 

J5. Use CPGAIN to tune 

the external device.

*These are the default installation options. For the  DC1846A-A, U3 is populated with CVCO55CC-2328-2536 from Crystek

Summary of Contents for DC1846A

Page 1: ...nology Corporation All other trademarks are the property of their respective owners A DC590 USB serial controller board is used for SPI com munication with the LTC6947 controlled by the supplied FracN...

Page 2: ...the DC590 to one of your computer s USB ports with the included USB cable FracNWizard Installation The FracNWizard software is used to communicate with the LTC6947 synthesizer It uses the DC590 to tr...

Page 3: ...uirements and Characteristics table Be sure to terminate any unused RF output with 50 or poor spurious performance may result 2 Choose the MUTE jumper setting JP1 GND 3 3V MUTE position Select GND to...

Page 4: ...le is required in the loop filter to limit the op amp s noise contribution to the VCO phase noise Selecting Loop Filter Type The DC1846A can use either an active or a passive loop filter depending upo...

Page 5: ...V 22mA 5V VCO Power Supply Input V VCO turret Low noise and spur free 5V 30mA REF Reference Frequency Input J2 SMA connector Low noise 100MHz 6 to 10dBm into 50 see Note RF and RF Two Outputs J6 and J...

Page 6: ...DGE LAUNCH E F JOHNSON 142 0701 851 19 0 J3 J4 CONN SMA 50 Straight OPT 20 4 J9 J10 J11 J12 JACK BANANA KEYSTONE 575 4 21 1 J13 HEADER 7 DUAL PIN 2mm MOLEX 87831 1420 22 0 L1 IND 0402 OPT 23 2 L2 L3 I...

Page 7: ...RINTED CIRCUIT BOARD LAYOUT MAY SIGNIFICANTLY AFFECT CIRCUIT PERFORMANCE OR RELIABILITY CONTACT LINEAR TECHNOLOGY APPLICATIONS ENGINEERING FOR ASSISTANCE THIS CIRCUIT IS PROPRIETARY TO LINEAR TECHNOLO...

Page 8: ...MAY SIGNIFICANTLY AFFECT CIRCUIT PERFORMANCE OR RELIABILITY CONTACT LINEAR TECHNOLOGY APPLICATIONS ENGINEERING FOR ASSISTANCE THIS CIRCUIT IS PROPRIETARY TO LINEAR TECHNOLOGY AND SCHEMATIC SUPPLIED FO...

Page 9: ...ogy Corporation is believed to be accurate and reliable However noresponsibilityisassumedforitsuse LinearTechnologyCorporationmakesnorepresenta tion that the interconnection of its circuits as describ...

Page 10: ...DING ANY WARRANTY OF MERCHANTABILITY OR FITNESS FOR ANY PARTICULAR PURPOSE EXCEPT TO THE EXTENT OF THIS INDEMNITY NEITHER PARTY SHALL BE LIABLE TO THE OTHER FOR ANY INDIRECT SPECIAL INCIDENTAL OR CONS...

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