Post on 27-Jul-2021
M. Betz, Q. Du, B. Flugstad, K. Baptiste, M. Vinco Lawrence Berkeley Labs
LO
20 dBm
FSWP
sig gen
400 MHz
reference
500 MHz
+- 5 MHz
FSWP PN
analyzer
*2
821 MHz
+- 52 MHz
IF
RF
120 MHz
+- 20 MHz
AD9912 evaluation board
DDS to generate 100 MHz +- 1 MHz
800 MHz
DDS clock
Marki
T3-03
Homebrew I: AD9912 DDS + Mixer Homebrew II: Direct synthesis with a modern DAC
f1 = 499 645.0 kHz
* Annual freq. variation: < +- 10.0 kHz
* Chroma. meas. ΔP = 0.45%: < +- 2.0 kHz
* Insertion devices: < +- 0.1 kHz
needs to be adjustable in 1 mHz increments
at 1 Hz update rate (slow orbit feedback)
without phase discontinuity
Device Gbps Gain [dB] RMS Jitter [fs]
(499.6 MHz) (1 Hz .. 1 MHz)
FTLF8519P3BNL 2.125 1.0 103
FTLX8573D3BTL 10 -1.2 60
AFBR-709SMZ 10 -2.8 50
FTLF8528P3BNV 8.5 0.6 49
FTLX8574D3BCL 10 -0.7 47
Vialite + optical splitter -0.5 17
Baluns only (TC2-72T+) -2.0 6
* Distribution over phase stable coax
Andrew LDF4-50A Heliax (16 PPM/K)
* Distribution chassis (x12) based
on obsolete RF power amp. modules
* Operational since 1989, highly reliable
* More channels needed!
e.g., for beamline users
* Workarounds with RF splitters have
caused trouble in the past
* Only single frequency compatible
* Phase noise / signal quality bottleneck
Phase noise and spurs at the in- and output
of the current MO distribution chassis in the ALS
* extremely low cost & wide availability
* usable from 500 kHz to 1.5 GHz (-5 dB)
* surprisingly good PN / spur performance!
2 x Balun
TC2-72T+
PN analyzer
source
PNanalyzerinput
503 MHz+- 8 MHz
15 dB
Loopbackfiber
SFP module
evalu
atio
n boar
d
Phase noise test setup
for SFP transceivers
* good candidate for future MO dist.
* designed for satellite communication /
TV broadcast industry
* redundant power supplies
* hot-plugable modules (blind mate con.)
* telemetry and alarms over ethernet
* active optical x16 splitter available
* standalone receivers available
* excellent phase noise performance
see brown trace in PN plot
Low phase noise (PN) master oscillator (MO)
generation and distribution for ALS and ALS-U
Fiber link chassis
Standalone RX modules
x16 active optical splitter
equal to instrumentnoise floor
Measured on
R&S FSWP
PN analyzer
fc = 499.6 MHz
Linac
Buncher
Gun
Booster
Storage ring
50 MeV
2.0 GeV
Accumulator
SRRF
ARF
BRF
ALS-U
= f1
= f2
/4
*6
Timing sys.
E. gun
Buncher
Linac I
Linac II
Buncher
Storage Ring
f1 = 499.6 MHz+- 1.0 MHz
609
608*
f2 = 500.4 MHz+- 1.0 MHz
Accumulator
Booster
Storage Ring
Masteroscillator
Beamline users
Beamline users
Holzworth HS9001A
ALS-U
(2025)
MO chassis(custom made)
Fiber link chassis(up to 13 TX or RX modules)
f1 f2 f1 / 4
f1 distr. f2 distr. f1 / 4 distr.
x16 active
optical splitter
x16 active
optical splitter
x16 active
optical splitter
AD9164 / AD9174 DACs are capable of
directly synthesizing the MO signal with
excellent phase noise performance
less spurs due to higher resolution (16 bit)
and sampling rate (up to 12.6 GSps) of the
DAC compared to AD9912 (14 bit, 1 GSps)
+
synchronized
updates
FTW2
+
D
DFTW1
JE
SD
20
4B
FM
C c
on
ne
cto
r
128 MHz DSP clockVC707
Phase
accumulator
Frequency
tuning wordCordic
AD9174-FMC-EBZ DAC evaluation board 2x 500 MHz+- 2 MHz
JE
SD
20
4B
FM
C c
on
ne
cto
r
interpolation
to DAC sampling
rate
DAC1
DAC2
N
N
to freq.
distribution
/N fDAC = 5.12 GHz
fixed ref.
numerical
controlled
oscillator
FPGA
baseband Baseband freq. constraints
Spur measurement of AD9164 at fDAC = 5.12 GHz
ALS Master Oscillator
ALS-U MO distribution overview Current state in the ALSCurrent state in the ALS An experiment with SFP transceivers Commercial RF over fiber link (ViaLite)
A clean fixed 400 MHz frequency reference is
split in two channels. One is used as clock for a
DDS chip (AD9912), generating an adjustable
frequency of ~100 MHz. The other one is used
as Local Oscillator for a mixer, to up-convert the
variable ~100 MHz to ~500 MHz
* Extremely low phase noise
* Abandoned due to significant spurs at
sensitive frequencies
* They move with frequency set-point and hence are
hard to control
* Spurs inherent to the limited DAC resolution of the
AD9912 (14 bit)
VC707
AD9174-FMC-EBZ
AD9174 = 2 independent DACs for
ALS / ALS-U dual frequency
generation
DAC sampling rate fDAC chosen to
keep major spurs out of ALS
operational frequency range
Basically no spurs below 2 MHz
offset!
+1.8 dBm
for fc = 499.4 ... 499.8 MHz:
Spurious-free Dynamic Range = 117 dB
no major spurs within +- 2 MHz of fc
499.64, 499.65, 499.66, 499.67Carrier frequency fc [MHz]:
2 MHz
499.4 - 499.8 MHz
AD9164
5.12 GHz
16 bit, 12 GSps DAC
with internal NCO
evaluation board
FSWP
sig gen
FSWP PN
analyzer
Setup for PN / spur measurements
Current ALS MO
Homebrew I
Homebrew II
Most sensitive region for
beamline users ...
LLRF will apply noise to beam
PN measurements of 3 MO candidates RMS Jitter 1 Hz .. 1 MHz
t [1 ms / div]
Δf
[HZ
]
freq.
setpoint
change
R&S SMA100B
Holzworth HSX9002A
Holzworth HS9001A
RF output is blanked for 3 ms
internal PLL re-acquires lock
clean frequency step
current ALS MO
Setup for ALS / ALS-U dual frequency generation