DSC1104 DSC1124
Low-Jitter Precision HCSL Oscillator
General Description Features
The DSC1104 & DSC1124 series of high Low RMS Phase Jitter: <1 ps (typ)
performance oscillators utilizes a proven
High Stability: 10, 25, 50 ppm
silicon MEMS technology to provide excellent
jitter and stability over a wide range of Wide Temperature Range
supply voltages and temperatures. By
o Industrial: -40 to 85 C
eliminating the need for quartz or SAW
o Ext. commercial: -20 to 70 C
technology, MEMS oscillators significantly
High Supply Noise Rejection: -50 dBc
enhance reliability and accelerate product
development, while meeting stringent clock
Short Lead Time: 2 Weeks
performance criteria for a variety of
Wide Freq. Range: 2.3 to 460 MHz
communications, storage, and networking
applications.
Small Industry Standard Footprints
o 2.5x2.0, 3.2x2.5, 5.0x3.2, & 7.0x5.0 mm
DSC1104 has a standby feature allowing it to
Excellent Shock & Vibration Immunity
completely power-down when EN pin is
o Qualified to MIL-STD-883
pulled low; whereas for DSC1124, only the
outputs are disabled when EN is low. Both
High Reliability
oscillators are available in industry standard
2 o 20x better MTF than quartz oscillators
packages, including the small 3.2x2.5 mm ,
and are drop-in replacements for standard
Low Current Consumption
6-pin HCSL quartz crystal oscillators.
Supply Range of 2.25 to 3.6 V
Standby & Output Enable Function
Block Diagram
Lead Free & RoHS Compliant
LVPECL & LVDS Versions Available
Applications
Storage Area Networks
o SATA, SAS, Fibre Channel
Passive Optical Networks
o EPON, 10G-EPON, GPON, 10G-PON
Ethernet
o 1G, 10GBASE-T/KR/LR/SR, and FCoE
Output Enable Modes
HD/SD/SDI Video & Surveillance
EN Pin DSC1104 DSC1124
PCI Express: Gen 1 & Gen 2
High Outputs Active Outputs Active
DisplayPort
NC Outputs Active Outputs Active
Low Standby Outputs Disabled
______________________________________________________________________________________________________________________________________________
DSC1104 | DSC1124 Page 1 MK-Q-B-P-D-110410-04-6 Low-Jitter Precision HCSL Oscillator
DSC1104 DSC1124
Absolute Maximum Ratings Ordering Code
Item Min Max Unit Condition
Temp Range
Supply Voltage -0.3 +4.0 V
Enable Modes Packing
E: -20 to 70
0: Enable/Standby T: Tape & Reel
Input Voltage -0.3 V +0.3 V I: -40 to 85
DD
2: Enable/Disable : Tube
L: -40 to 105
Junction Temp - +150 C
Storage Temp -55 +150 C
DSC11 0 4 C I 5 125.0000 T
-
Soldering Temp - +260 C 40sec max.
ESD - V
Package Stability Freq (MHz)
HBM 4000
A: 7.0x5.0mm 1: 50ppm
125.0000
B: 5.0x3.2mm 2: 25ppm
MM 400
C: 3.2x2.5mm 5: 10ppm
CDM 1500
D: 2.5x2.0mm
N: 7.0x5.0mm (no center pad)
Note: 1000+ years of data retention on internal memory
Specifications
Parameter Condition Min. Typ. Max. Unit
1
Supply Voltage V 2.25 3.6 V
DD
EN pin low outputs are disabled
Supply Current I DSC1104 0.095 mA
DD
DSC1124 20 22
Includes frequency variations due
10
Frequency Stability f to initial tolerance, temp. and ppm
25
power supply voltage
50
Aging f 1 year @25C 5 ppm
2
Startup Time t T=25C 5 ms
SU
Input Logic Levels
Input logic high V 0.75xV - V
IH DD
Input logic low V - 0.25xV
IL DD
3
Output Disable Time t 5 ns
DA
DSC1104 5 ms
Output Enable Time t
EN
DSC1124 20 ns
4
Enable Pull-Up Resistor Pull-up resistor exist 40 k
HCSL Outputs
Supply Current I Output Enabled, R =50 40 42 mA
DD L
Output Logic Levels
Output logic high V R =50 0.725 - V
OH L
Output logic low V - 0.1
OL
Pk to Pk Output Swing Single-Ended 750 mV
3
Output Transition time
20% to 80%
Rise Time t 200 400 ps
R
R =50, C = 2pF
L L
Fall Time t
F
Frequency f Single Frequency 2.3 460 MHz
0
Output Duty Cycle SYM Differential 48 52 %
Period Jitter J 2.5 ps
PER RMS
200kHz to 20MHz @156.25MHz 0.25
Integrated Phase Noise J 100kHz to 20MHz @156.25MHz 0.37 ps
PH RMS
12kHz to 20MHz @156.25MHz 1.7 2
Notes:
1. Pin 6 V should be filtered with 0.1uf capacitor.
DD
2. t is time to 100ppm of output frequency after V is applied and outputs are enabled.
su DD
3. Output Waveform and Test Circuit figures below define the parameters.
4. Output is enabled if pad is floated or not connected.
______________________________________________________________________________________________________________________________________________
DSC1104 | DSC1124 Page 2 MK-Q-B-P-D-110410-04-6