CYPRESS CY25901SC

CY25901
Spread Spectrum Clock Generator
Features
•
•
•
•
•
•
•
Description
Supports clock requirements for Spread Spectrum
40-MHz Spread Spectrum clock output
Reference clock output
Two spread bandwidths: 1%, 3%
External clock or Cera-Lock input
3.3V operation
8-pin SOIC package
The CY25901 clock generator provides a low-electromagnetic
interference (EMI) clock output. It features Spread Spectrum
technology, a modulation technique designed specifically for
reducing EMI at the fundamental frequency and its harmonics.
Table 1. Function Table
CLKOUT (Spread Spectrum)
SSSEL
SSON
REFOUT
0
0
XIN
CY25901SC
CY25901SC-1
= XIN ± 0.35% (0.7% center)
= XIN ± 0.5% (1.0% center)
1
0
XIN
= XIN ± 1.20% (2.4% center)
= XIN ± 1.5% (3.0% center)
X (don’t care)
1
XIN
= XIN (No Spread)
= XIN (No Spread)
Block Diagram
Pin Configuration
XIN
REFOUT
Oscillator
XOUT
SSON
CLKOUT
1
8
SSON#
VDD
2
7
REFOUT
VSS
3
6
SSSEL
XIN
4
5
XOUT
PLL
CLKOUT
SSCG
SSSEL
Cypress Semiconductor Corporation
Document #: 38-07521 Rev. **
•
3901 North First Street
•
San Jose, CA 95134
•
408-943-2600
Revised February 18, 2003
CY25901
Pin Description
Pin No.
Name
I/O
1
CLKOUT
2
VDD
PWR
Power Supply.
3
VSS
PWR
Common Ground.
4
XIN
I
Oscillator Buffer Input. Connect to an external parallel resonant crystal or externally generated
reference clock.
5
XOUT
O
Oscillator Buffer Output. Connect to an external parallel resonant crystal. Do not connect when
an externally generated reference clock is applied at XIN.
6
SSSEL
I
Spread Spectrum Select Input. See Table 1. internally pulled up.
7
REFOUT
O
Buffered Output of XIN.
8
SSON#
I
Spread Spectrum Enable Input. When asserted low, Spread Spectrum is enabled.
Internally pulled down.
O
Description
Spread Spectrum Clock Output. See Table 1 for frequency selections.
Spread Spectrum Clock Generator
Spread Spectrum Clock Generator (SSCG) is a frequency
modulation technique used to reduce EMI radiation generated
by repetitive digital signals, mainly clocks. A clock radiates EM
energy at its fundamental frequency as well as its harmonics.
Spread Spectrum distributes this energy over a small
frequency bandwidth, and decreasing the peak value of
radiated energy over the spectrum. This technique is achieved
by modulating the clock around or below the center of its
reference frequency by a certain percentage (which also
determines the energy distribution bandwidth).
The SSCG function is enabled when SSON pin is set to low.
Resulting in a spread bandwidth that is center spread, amount
as selected by SSSEL (see Table 1).
Figure 1. Modulation Frequency Profile
Spread Spectrum
0
-10
-20
dBm
-30
SS-ON
-40
SS-OFF
-50
-60
-70
-80
38
38
39
39
40
41
41
42
43
Frequency(MHz)
Figure 2. Spread Spectrum
Document #: 38-07521 Rev. **
Page 2 of 5
CY25901
Absolute Maximum Ratings
Parameter
Description
VDD
Core Supply Voltage
VIN
Input Voltage
Condition
Min.
Max.
Unit
–0.5
4.6
V
Relative to VSS
–0.5
VDD+0.5
VDC
TS
Temperature, Storage
Non Functional
–65
150
°C
TA
Temperature, Operating Ambient
Functional
–10
85
°C
–
150
°C
2000
–
V
TJ
Temperature, Junction
Functional
ESDHBM
ESD Protection (Human Body Model)
MIL-STD-883, Method 3015
UL–94
Flammability Rating
@1/8 in.
MSL
Moisture Sensitivity Level
V–0
1
DC Specifications
Parameter
VDD
Description
Condition
Operating Voltage
3.3V @ ±10%
Voltage[1]
VIL
Input Low
VIH
Input High Voltage[1]
Inputs
VthXIN
XIN Threshold Voltage
XIN
IDD
Dynamic Supply Current
VDD = 3.3V and CL = 0
IIL
Input Low Current
IIH
Input High Current
VOL
Output Low Voltage
IOL = 4.0 mA
VOH
Output High Voltage
IOH = –4.0 mA
CIN
Input Capacitance
CX
XIN, XOUT Capacitance[2]
PU/PD
SSON# and SSSEL
[1]
Pull-up/Pull-down Resistance
Min.
Typ.
Max.
Unit
2.97
3.3
3.63
V
–
–
0.8
V
2.2
–
–
V
0.3*VDDC 0.5*VDDC 0.7*VDDC
25
V
–
20
mA
SSSEL = VSS
–55
–30
–
µA
SSON = VDD
–
30
55
µA
–
–
0.4
V
2.4
–
–
V
SSON# and SSSEL Inputs
–
5
10
pF
XIN and XOUT
–
5
–
pF
SSON# and SSSEL Inputs
50
100
200
kΩ
Unit
AC Specifications[3]
Parameter
Description
Condition
Min.
Typ.
Max.
FIR
Input Frequency Range
ERXIN
XIN Edge Rate
36
40
44
MHz
XIN driven by external clock
–
1
–
V/nS
TDCXIN
TR
XIN Duty Cycle
XIN driven by external clock
40
50
60
%
Outputs Rise Time[4]
REFOUT, CLKOUT
–
–
3
ns
TF
Outputs Fall Time[4]
REFOUT, CLKOUT
–
BW%1
CY25901SC, Spread %
SSON=0,SSSEL = 0
0.5
–
3
ns
0.7
0.9
%
BW%2
CY25901SC, Spread %
SSON=0,SSSEL = 1
1.7
2.4
3.1
%
BW%3
CY25901SC–1, Spread %
SSON=0,SSSEL = 0
0.7
1
1.3
%
BW%4
CY25901SC–1, Spread %
SSON=0,SSSEL = 1
2.1
3
3.9
%
TPU
Power up to Stable Output[5]
All output clocks
–
–
3
ms
TDC
CLKOUT Duty Cycle[5]
CL = 15pF
45
50
55
%
TCCJ
REFOUT Cycle to Cycle jitter[5] CL = 15pF
–
110
200
ps
TCCJ
CLKOUT Cycle to Cycle jitter[5] CL = 15pF
–
110
200
ps
Fmod
Frequency Modulation Rate
–
31
–
kHz
SSON# = GND Internally pulled down
Notes:
1. SSSEL has internal pull-up and SSON has pull-down resistors.
2. In applications if a crystal is used for the input reference clock, refer to crystal manufacturer’s specifications for the required crystal load capacitor value.
3. Parameters are guaranteed by design and characterization. Not 100% tested in production. All parameters specified with fully loaded outputs. All outputs
loaded with 15 pF.
4. Measured between 0.2*VDD and 0.8*VDD Volts.
5. Triggering is done at 1.5V VDDC.
Document #: 38-07521 Rev. **
Page 3 of 5
CY25901
Application Schematic
R1
CLKOUT
1
CLKOUT
SSON#
8
VDD(3.3V)
2
VDD
REFOUT
7
3
VSS
SSSEL
6
4
XIN
XOUT
5
R2
REFOUT
0.1µF
CL1
XTAL
CL2
Figure 3. Application Schematic
Use crystal or cera-lock filter manufacturer’s recommended
values for CL1 and CL2 load capacitors. 0.1-µF bypass
capacitor for power pins should always be used and placed
close to their VDD pin. R1 and R2 are series termination
resistors for impedance matching.
Ordering Information
Part Number
Package Type
Production Flow
CY25901SC–1
8-pin SOIC
Commercial, –10°C to +85°C
CY25901SC–1T
8-pin SOIC – Tape and Reel
Commercial, –10°C to +85°C
CY25901SC
8-pin SOIC
Commercial, –10°C to +85°C
CY25901SCT
8-pin SOIC –Tape and Reel
Commercial, –10°C to +85°C
Package Drawing and Dimensions
8-lead (150-Mil) SOIC S8
51-85066-A
All product and company names mentioned in this document are the trademarks of their respective holders.
Document #: 38-07521 Rev. **
Page 4 of 5
© Cypress Semiconductor Corporation, 2003. The information contained herein is subject to change without notice. Cypress Semiconductor Corporation assumes no responsibility for the use
of any circuitry other than circuitry embodied in a Cypress Semiconductor product. Nor does it convey or imply any license under patent or other rights. Cypress Semiconductor does not authorize
its products for use as critical components in life-support systems where a malfunction or failure may reasonably be expected to result in significant injury to the user. The inclusion of Cypress
Semiconductor products in life-support systems application implies that the manufacturer assumes all risk of such use and in doing so indemnifies Cypress Semiconductor against all charges.
CY25901
Document History Page
Document Title: CY25901 Spread Spectrum Clock Generator
Document Number: 38-07521
REV.
ECN NO.
Issue Date
Orig. of
Change
**
124075
02/19/03
RGL
Document #: 38-07521 Rev. **
Description of Change
New Data Sheet
Page 5 of 5