CYPRESS CY25100ZXC-XXXW

CY25100
Field and Factory-Programmable Spread Spectrum
Clock Generator for EMI Reduction
Features
Benefits
■
Wide operating output (SSCLK) frequency range
❐ 3 MHz to 200 MHz
■
Services most PC peripherals, networking, and consumer
applications.
■
Programmable spread spectrum with nominal 31.5 kHz
modulation frequency
❐ Center spread: ±0.25% to ±2.5%
❐ Down spread: –0.5% to –5.0%
■
Provides wide range of spread percentages for maximum
electromagnetic interference (EMI) reduction, to meet
regulatory agency electromagnetic compliance (EMC) requirements. Reduces development and manufacturing costs and
time-to-market.
■
Input frequency range
❐ External crystal: 8 to 30 MHz fundamental crystals
❐ External reference: 8 to 166 MHz clock
■
Eliminates the need for expensive and difficult to use higher
order crystals.
■
Integrated phase-locked loop (PLL)
■
Internal PLL to generate up to 200 MHz output. Able to generate
custom frequencies from an external crystal or a driven source.
■
Field programmable
❐ CY25100SCF and CY25100SIF, 8-pin SOIC
❐ CY25100ZCF and CY25100ZIF, 8-pin TSSOP
■
■
Programmable crystal load capacitor tuning array
■
Low cycle-to-cycle jitter
In-house programming of samples and prototype quantities is
available using the CY3672 programming kit and
CY3690 (TSSOP) or CY3691 (SOIC) socket adapter.
Production quantities are available through Cypress’s value
added distribution partners or by using third party programmers
from BP Microsystems, HiLo Systems, and others.
■
3.3V operation
■
■
Commercial and industrial operation
Enables fine tuning of output clock frequency by adjusting
CLoad of the crystal. Eliminates the need for external CLoad
capacitors.
■
Spread spectrum on/off function
■
Suitable for most PC, consumer, and networking applications.
■
Power down or Output Enable function
■
Application compatibility in standard and low power systems.
■
Ability to enable or disable spread spectrum with an external
pin.
■
Enables low power state or output clocks to High-Z state.
Logic Block Diagram
RFB
PLL
with
MODULATION
CONTROL
3
XIN
C XIN
6
OUTPUT
DIVIDERS
and
MUX
PROGRAMMABLE
CONFIGURATION
2
XOUT
C XOUT
REFCLK
7
4
SSCLK
PD# or OE
8
SSON#
Cypress Semiconductor Corporation
Document #: 38-07499 Rev. *F
•
1
5
VDD
VSS
198 Champion Court
•
San Jose, CA 95134-1709
•
408-943-2600
Revised November 4, 2008
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CY25100
Pinouts
Figure 1. CY25100 8-Pin SOIC/TSSOP
1 VDD
SSON# 8
2
XOUT
SSCLK 7
3 XIN/CLKIN
REFCLK 6
4 PD#/OE
VSS 5
Pin Description
Pin
Name
Description
1
VDD
3.3V power supply.
2
XOUT
Crystal output. Leave this pin floating if external clock is used.
3
XIN/CLKIN
Crystal input or reference clock input.
4
PD#/OE
Power down pin: Active LOW. If PD# = 0, PLL and Xtal are powered down, and outputs are
weakly pulled low.
Output Enable pin: Active HIGH. If OE = 1, SSCLK and REFCLK are enabled. User has the
option of choosing either PD# or OE function.
5
VSS
Power supply ground.
6
REFCLK
Buffered reference output.
7
SSCLK
Spread spectrum clock output.
8
SSON#
Spread spectrum control. 0 = spread on. 1 = spread off.
General Description
The CY25100 is a Spread Spectrum Clock Generator (SSCG) IC
used to reduce EMI found in today’s high speed digital electronic
systems.
The device uses a Cypress proprietary PLL and Spread
Spectrum Clock (SSC) technology to synthesize and modulate
the frequency of the input clock. By frequency modulating the
clock, the measured EMI at the fundamental and harmonic
frequencies are greatly reduced. This reduction in radiated
energy can significantly reduce the cost of complying with
regulatory agency (EMC) requirements and improve
time-to-market without degrading system performance.
The CY25100 uses a factory or field-programmable configuration memory array to synthesize output frequency, spread
percentage, crystal load capacitor, reference clock output on/off,
spread spectrum on/off function, and PD#/OE options.
The spread percentage is programmed to either center spread
or down spread with various spread percentages. The range for
center spread is from ±0.25% to ±2.50%. The range for down
spread is from –0.5% to –5.0%. Contact the factory for smaller
or larger spread percentage amounts, if required.
The input to the CY25100 can either be a crystal or a clock
signal. The input frequency range for crystals is 8 to 30 MHz, and
for clock signals is 8 to 166 MHz.
The CY25100 has two clock outputs, REFCLK and SSCLK. The
non spread spectrum REFCLK output has the same frequency
as the input of the CY25100. The frequency modulated SSCLK
output can be programmed from 3 to 200 MHz.
The CY25100 products are available in 8-pin SOIC and TSSOP
packages with commercial and industrial operating temperature
ranges.
Table 1.
Pin Function
Pin Name
Input
Frequency
Total Xtal
Load
Capacitance
XIN and XOUT XIN and XOUT
Output
Frequency
Spread Percent
(0.5% – 5%,
0.25% Intervals)
Reference
Output
SSCLK
SSCLK
REFOUT
Power down or Frequency
Output Enable Modulation
PD#/OE
SSCLK
Pin#
3 and 2
3 and 2
7
7
6
4
7
Unit
MHz
pF
MHz
%
On or Off
Select PD# or OE
kHz
ENTER DATA
ENTER DATA
ENTER DATA
31.5
Program Value
ENTER DATA ENTER DATA ENTER DATA
Document #: 38-07499 Rev. *F
Page 2 of 13
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CY25100
Programming Description
Product Functions
Field Programmable CY25100
Input Frequency (XIN, Pin 3 and XOUT, Pin 2)
The CY25100 is programmed at the package level, that is, in a
programmer socket. The CY25100 is Flash based, so the parts
can be reprogrammed up to 100 times. This allows fast and easy
design changes and product updates, and eliminates any issues
with old and out-of-date inventory.
The input to the CY25100 can be a crystal or a clock. The input
frequency range for crystals is 8 to 30 MHz, and for clock signals
is 8 to 166 MHz.
Samples and small prototype quantities can be programmed on
the CY3672 programmer with CY3690 (TSSOP) or CY3691
(SOIC) socket adapter.
The load capacitors at Pin 1 (CXIN) and Pin 8 (CXOUT) can be
programmed from 12 pF to 60 pF with 0.5 pF increments. The
programmed value of these on-chip crystal load capacitors are
the same (XIN = XOUT = 12 to 60 pF).
CyberClocks™ Online Software
CyberClocks™ Online Software is a web based software application that allows the user to custom-configure the CY25100. All
the parameters in Table 1 given as “Enter Data” can be
programmed into the CY25100. CyberClocks Online outputs an
industry-standard JEDEC file used for programming the
CY25100. CyberClocks Online is available at www.cyberclocksonline.com web site through user registration. To register, fill out
the registration form and make sure to check the “non-standard
devices” box. For more information on the registration process
refer to CY3672 data sheet
For information regarding spread spectrum software
programming solutions, contact your local Cypress sales representative or Field Application Engineer (FAE).
CY3672 FTG Programming Kit and CY3690/CY3691
Socket Adapter
The Cypress CY3672 FTG programmer and CY3690 and
CY3691 socket adapters are required to program the CY25100.
The CY3690 enables users to program CY25100ZCF and
CY25100ZIF (TSSOP). CY3691 provides the ability to program
CY25100SCF and CY25100SIF (SOIC). Each socket adapter
comes with small prototype quantities of CY25100. The CY3690
and CY3691 is a separate orderable item, so the existing users
of the CY3672 FTG development kit or CY3672-PRG
programmer need to order only the socket adapters to program
the CY25100.
Factory Programmable CY25100
Factory programming is available for volume manufacturing by
Cypress. All requests must be submitted to the local Cypress
Field Application Engineer (FAE) or sales representative. A
sample request form (refer to “CY25100 Sample Request Form”
at www.cypress.com) must be completed. After the request is
processed, you will receive a new part number, samples, and
data sheet with the programmed values. This part number is
used for additional sample requests and production orders.
Additional information on the CY25100 can be obtained from the
Cypress web site at www.cypress.com.
CXIN and CXOUT (Pin 3 and Pin 2)
The required values of CXIN and CXOUT are calculated using the
following formula:
CXIN = CXOUT = 2CL – CP
where CL is the crystal load capacitor as specified by the crystal
manufacturer and CP is the parasitic PCB capacitance.
For example, if a fundamental 16 MHz crystal with CL of 16 pF is
used and CP is 2 pF, CXIN and CXOUT are calculated as:
CXIN = CXOUT = (2 x 16) – 2 = 30 pF
If using a driven reference, set CXIN and CXOUT to the minimum
value 12 pF.
Output Frequency, SSCLK Output (SSCLK, Pin 7)
The modulated frequency at the SSCLK output is produced by
synthesizing the input reference clock. The modulation can be
stopped by SSON# digital control input (SSON# = HIGH, no
modulation). If modulation is stopped, the clock frequency is the
nominal value of the synthesized frequency without modulation
(spread percentage = 0). The range of synthesized clock is from
3 to 200 MHz.
Spread Percentage (SSCLK, Pin 7)
The SSCLK spread can be programmed at any percentage value
from ±0.25% to ±2.5% for center spread and from –0.5% to
–5.0% down spread.
Reference Output (REFOUT, Pin 6)
The reference clock output has the same frequency and the
same phase as the input clock. This output can be programmed
to be enabled (clock on) or disabled (High-Z, clock off). If this
output is not required, it is recommended that users request the
disabled (High-Z, Clock Off) option.
Frequency Modulation
The frequency modulation is programmed at 31.5 kHz for all
SSCLK frequencies from 3 to 200 MHz. Contact the factory if a
higher modulation frequency is required.
Power Down or Output Enable (PD# or OE, Pin 4)
The part can be programmed to include either PD# or OE
function. PD# function powers down the oscillator and PLL. The
OE function disables the outputs.
Document #: 38-07499 Rev. *F
Page 3 of 13
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CY25100
Absolute Maximum Rating
Junction Temperature ................................ –40°C to +125°C
Supply Voltage (VDD)........................................ –0.5 to +7.0V
DC Input Voltage ......................................–0.5V to VDD + 0.5
Storage Temperature (Non condensing)..... –55°C to +125°C
Data Retention at Tj = 125°C ................................> 10 years
Package Power Dissipation...................................... 350 mW
Static Discharge Voltage.......................................... > 2000V
(per MIL-STD-883, Method 3015)
Recommended Crystal Specifications
Parameter
Description
Comments
Min
Typ
Max
Unit
FNOM
Nominal Crystal Frequency
Parallel resonance, fundamental mode, AT cut
8
–
30
MHz
CLNOM
Nominal Load Capacitance
Internal load caps
6
–
30
pF
Fundamental mode
R1
Equivalent Series Resistance (ESR)
–
–
25
Ω
R3/R1
Ratio of Third Overtone Mode ESR to Ratio used because typical R1 values are much
Fundamental Mode ESR
less than the maximum spec
3
–
–
–
DL
Crystal Drive Level
–
0.5
2
mW
No external series resistor assumed
Operating Conditions
Parameter
Description
VDD
Supply Voltage
TA
Ambient Commercial Temperature
Ambient Industrial Temperature
Min
Typ
Max
Unit
3.13
3.30
3.45
V
0
–
70
°C
–40
–
85
°C
CLOAD
Maximum Load Capacitance at Pin 6 and Pin 7
–
–
15
pF
Fref
External Reference Crystal
(Fundamental tuned crystals only)
8
–
30
MHz
External Reference Clock
8
–
166
MHz
FSSCLK
SSCLK Output Frequency, CLOAD = 15 pF
3
–
200
MHz
FREFCLK
REFCLK Output Frequency, CLOAD = 15 pF
8
–
166
MHz
FMOD
Spread Spectrum Modulation Frequency
30.0
31.5
33.0
kHz
TPU
Power Up Time for all VDDs to reach minimum specified voltage (power ramp must be
monotonic)
0.05
–
500
ms
Min
Typ
Max
Unit
10
12
DC Electrical Characteristics
Parameter
Description
Condition
IOH
Output High Current
VOH = VDD – 0.5, VDD = 3.3V (source)
mA
IOL
Output Low Current
VOL = 0.5, VDD= 3.3V (sink)
10
12
VIH
Input High Voltage
CMOS levels, 70% of VDD
0.7VDD
–
VDD
V
VIL
Input Low Voltage
CMOS levels, 30% of VDD
–
–
0.3VD
V
mA
D
IIH
Input High Current, PD#/OE and
SSON# Pins
Vin = VDD
–
–
10
μA
IIL
Input Low Current, PD#/OE and SSON# Vin = VSS
Pins
–
–
10
μA
IOZ
Output Leakage Current
Three-state output, PD#/OE = 0
10
μA
CXIN or
CXOUT[1]
Programmable Capacitance at Pin 2
and Pin 3
Capacitance at minimum setting
–
12
–
pF
Capacitance at maximum setting
–
60
–
pF
CIN[1]
Input Capacitance at Pin 4 and Pin 8
Input pins excluding XIN and XOUT
–
5
7
pF
–10
Note
1. Guaranteed by characterization, not 100% tested.
Document #: 38-07499 Rev. *F
Page 4 of 13
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CY25100
DC Electrical Characteristics
Parameter
(continued)
Description
Condition
Min
Typ
Max
Unit
IVDD
Supply Current
VDD = 3.45V, Fin = 30 MHz,
REFCLK = 30 MHz, SSCLK = 66 MHz,
CLOAD = 15 pF, PD#/OE = SSON# = VDD
–
25
35
mA
IDDS
Standby Current
VDD = 3.45V, Device powered down with
PD# = 0V (driven reference pulled down)
–
15
30
μA
Min
45
40
Typ
50
50
Max
55
60
Unit
%
%
0.7
1.1
3.6
V/ns
0.7
1.1
3.6
V/ns
1.0
1.6
4.0
V/ns
1.2
1.6
4.0
V/ns
–
90
120
ps
–
100
130
ps
–
130
170
ps
–
100
130
ps
–
105
140
ps
–
200
260
ps
–
80
100
ps
–
100
130
ps
–
135
180
ps
–
150
350
ns
–
150
350
ns
–
150
350
ns
–
3.5
5
ms
–
2
3
ms
AC Electrical Characteristics [1]
Parameter
Description
DC
Output Duty Cycle
Output Duty Cycle
SR1
Rising Edge Slew Rate
SR2
Falling Edge Slew Rate
SR3
Rising Edge Slew Rate
SR4
Falling Edge Slew Rate
TCCJ1[2]
Cycle-to-Cycle Jitter
SSCLK (Pin 7)
TCCJ2[2]
TCCJ3[2]
tSTP
TOE1
TOE2
tPU1
tPU2
Cycle-to-Cycle Jitter
SSCLK (Pin 7)
Cycle-to-Cycle Jitter
REFCLK (Pin 6)
Power down Time
(pin 4 = PD#)
Output Disable Time
(pin 4 = OE)
Output Enable Time
(pin 4 = OE)
Power Up Time,
Crystal is used
Power Up Time,
Reference clock is used
Condition
SSCLK, Measured at VDD/2
REFCLK, Measured at VDD/2
Duty Cycle of CLKIN = 50% at input bias
SSCLK from 3 to 100 MHz; REFCLK from 3 to
100 MHz. 20%–80% of VDD
SSCLK from 3 to 100 MHz; REFCLK from 3 to
100 MHz. 80%–20% of VDD
SSCLK from 100 to 200 MHz; REFCLK from 100
to 166 MHz 20%–80% of VDD
SSCLK from 100 to 200 MHz; REFCLK from 100
to 166 MHz 80%–20% of VDD
CLKIN = SSCLK = 166 MHz, 2% spread,
REFCLK off
CLKIN = SSCLK = 66 MHz, 2% spread,
REFCLK off
CLKIN = SSCLK = 33 MHz, 2% spread,
REFCLK off
CLKIN = SSCLK = 166 MHz, 2% spread,
REFCLK on
CLKIN = SSCLK = 66 MHz, 2% spread,
REFCLK on
CLKIN = SSCLK = 33 MHz, 2% spread,
REFCLK on
CLKIN = SSCLK = 166 MHz, 2% spread,
REFCLK on
CLKIN = SSCLK = 66 MHz, 2% spread,
REFCLK on
CLKIN = SSCLK = 33 MHz, 2% spread,
REFCLK on
Time from falling edge on PD# to stopped
outputs (Asynchronous)
Time from falling edge on OE to stopped outputs
(Asynchronous)
Time from rising edge on OE to outputs at a valid
frequency (Asynchronous)
Time from rising edge on PD# to outputs at valid
frequency (Asynchronous)
Time from rising edge on PD# to outputs at valid
frequency (Asynchronous), reference clock at
correct frequency
Note
2. Jitter is configuration dependent. Actual jitter is dependent on XIN jitter and edge rate, number of active outputs, output frequencies, spread percentage, temperature,
and output load.
Document #: 38-07499 Rev. *F
Page 5 of 13
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CY25100
Application Circuit
Figure 2. Application Circuit Diagram[3, 4, 5]
Pow er
1
VDD
2
XOUT
SSON#
8
0 .1 u F
SSCLK
7
CY25100
VDD
3
X IN /C L K IN
4
P D # /O E
REFCLK
6
VSS
5
Switching Waveforms
Figure 3. Duty Cycle Timing (DC = t1A/t1B)
OUTPUT
t1A
t1B
Figure 4. Output Rise/Fall Time (SSCLK and REFCLK)
VDD
OUTPUT
0V
Tr
Tf
Output Rise time (Tr) = (0.6 x VDD)/SR1 (or SR3)
Output Fall time (Tf) = (0.6 x VDD)/SR2 (or SR4)
Refer to AC Electrical Characteristics table for SR (Slew Rate) values.
Figure 5. Power Down and Power Up Timing
POWER
DOWN
VDD
0V
VIH
VIL
tPU
High Impedance
CLKOUT
(Asynchronous)
tSTP
Notes
3. Because the load capacitors (CXIN and CXOUT) are provided by the CY25100, no external capacitors are needed on the XIN and XOUT pins to match the crystal load
capacitor (CL). Only a single 0.1-μF bypass capacitor is required on the VDD pin.
4. If an external clock is used, apply the clock to XIN (pin 3) and leave XOUT (pin 2) floating (unconnected).
5. If SSON# (pin 8) is LOW (VSS), the frequency modulation is on at SSCLK pin (pin 7).
Document #: 38-07499 Rev. *F
Page 6 of 13
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CY25100
Switching Waveforms
Figure 6. Output Enable/Disable Timing
VDD
VIH
OUTPUT
ENABLE
VIL
0V
TOE2
High Impedance
CLKOUT
(Asynchronous)
TOE1
Informational Graphs [6]
172.5
161.5
169.5
169
168.5
168
167.5
167
166.5
166
165.5
165
164.5
164
163.5
163
160.5
162.5
171.5
Spread Spectrum Profile: Fnom=166MHz,
Fmod=30kHz, Spread%= -4%
170.5
169.5
168.5
167.5
166.5
Fnominal
165.5
164.5
163.5
162.5
159.5
0
Spread Spectrum Profile: Fnom=166MHz,
Fmod=30kHz, Spread%= +/-1%
Fnominal
0
20
68.5
40
60
80
100
120
Time (us)
140
160
180
Spread Spectrum Profile: Fnom=66MHz,
Fmod=30kHz, Spread%= -4%
68
20
40
60
80
200
67.5
100 120
Time (us)
140
160
180
200
Spread Spectrum Profile: Fnom=66MHz,
Fmod=30kHz, Spread%= +/-1%
67
67.5
67
66.5
66.5
Fnominal
66
Fnominal
66
65.5
65.5
65
64.5
65
64
64.5
63.5
0
20
40
60
80
100
120
Time (us)
Document #: 38-07499 Rev. *F
140
160
180
200
0
20
40
60
80
100 120
Time (us)
140
160
180
200
Page 7 of 13
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CY25100
Informational Graphs (continued)[6]
IDD vs. SSCLK
Duty Cycle vs. REFCLK
Te m pe r atu r e =25C, V DD=3.3V , CLOAD=15p F, SS off,
( C L OA D =1 5 p F )
60
58
56
54
52
50
48
46
44
42
40
30
25
IDD (m A)
Duty Cycle (%)
Re fclk = 30M Hz
20
15
10
5
0
50
100
150
0
200
0
50
100
150
200
REFCLK (MHz)
SSCLK (M Hz )
Measured Spread% vs. VDD over Tem perature
(Target Spread = 0.5%, Fout=100MHz, CLOA D =15pF)
Measured Spread% vs. VDD over
Tem perature
(Target Spread = 5.0%, Fout=100MHz, CLOA D =15pF)
0.55%
-40C
0.50%
25C
0.45%
85C
6.00%
Spread%
Spread%
0.60%
5.50%
-40C
5.00%
25C
4.50%
85C
4.00%
0.40%
2.7
3
3.3
3.6
2.7
3.9
3
0
-2
-40C
-4
25C
-6
85C
-8
-10
3.3
VDD (V)
3.9
SSCLK Attenuation vs. VDD over Tem perature
(Measured at 7th Harmonic w ith Fnom=100MHz and
Spread=5.0%, CLOAD=15pF)
3.6
3.9
Attenuation (dB)
Attenuation (dB)
SSCLK Attenuation vs. VDD over Tem perature
(Measured at 7th Harmonic w ith Fnom=100MHz and
Spread=0.5%, CLOA D =15pF)
3
3.6
VDD (V)
VDD (V)
2.7
3.3
-10
-12
-14
-16
-18
-20
-40C
25C
85C
2.7
3
3.3
3.6
3.9
VDD (V)
Note
6. The Informational Graphs are meant to convey the typical performance levels. No performance specifications is implied or guaranteed. Refer to the tables on pages
4 and 5 for device specifications.
Document #: 38-07499 Rev. *F
Page 8 of 13
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CY25100
Informational Graphs (continued)[6]
Max Cycle-Cycle Jitter on SSCLK vs.
Tem perature
(SSCLK=100MHz, VDD=3.3V, CLOAD=15pF, +/2%spread, REFCLK off)
0
200
-2
175
-4
150
Jitter (ps)
Attenuation (dB)
SSCLK EMI Attenuation vs. Spread%
(Measured at 7th Harmonic Temp=25C, VDD=3.3V,
SSCLK=100MHz, Measured on Cypress
Characterization board w ith CLOAD=15pF)
-6
-8
-10
-12
125
100
75
50
25
-14
0
-16
0.0%
0.5%
1.0%
1.5%
2.0%
2.5%
3.0%
Spread %
Document #: 38-07499 Rev. *F
3.5%
4.0%
4.5%
5.0%
-40
- 20
0
20
40
60
80
100
Tem perature (deg C)
Page 9 of 13
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CY25100
Ordering Information
Part Number
Package Description
Product Flow
Pb-Free
CY25100SXCF
8-Pin Small Outline Integrated Circuit (SOIC)
Commercial, 0 to 70°C
CY25100SXIF
8-Pin Small Outline Integrated Circuit (SOIC)
Industrial, –40 to 85°C
CY25100ZXCF
8-Pin Thin Shrunk Small Outline Package (TSSOP)
Commercial, 0 to 70°C
CY25100ZXIF
8-Pin Thin Shrunk Small Outline Package (TSSOP)
Industrial, –40 to 85°C
CY25100SXC-xxxw[7]
8-Pin Small Outline Integrated Circuit (SOIC)
Commercial, 0 to 70°C
CY25100SXC-xxxwT[7]
8-Pin Small Outline Integrated Circuit (SOIC) - Tape and Reel
Commercial, 0 to 70°C
CY25100SXI-xxxw
8-Pin Small Outline Integrated Circuit (SOIC)
Industrial, –40 to 85°C
CY25100SXI-xxxwT[7]
8-Pin Small Outline Integrated Circuit (SOIC) -Tape and Reel
Industrial, –40 to 85°C
CY25100ZXC-xxxw[7]
8-Pin Thin Shrunk Small Outline Package (TSSOP)
Commercial, 0 to 70°C
CY25100ZXC-xxxwT[7]
8-Pin Thin Shrunk Small Outline Package (TSSOP) - Tape and Reel
Commercial, 0 to 70°C
CY25100ZXI-xxxw[7]
8-Pin Thin Shrunk Small Outline Package (TSSOP)
Industrial, –40 to 85°C
CY25100ZXI-xxxwT[7]
8-Pin Thin Shrunk Small Outline Package (TSSOP) -Tape and Reel
Industrial, –40 to 85°C
[7]
CY3672-USB
FTG Programmer, for part numbers ending in “F”
n/a
CY3690
CY25100ZXCF/IF Socket Adapter (TSSOP) for use with CY3672-USB
n/a
CY3691
CY25100SXCF/IF Socket Adapter (SOIC) for use with CY3672-USB
n/a
Package Diagrams
Figure 6. 8-Pin (150-Mil) SOIC S8
8 Lead (150 Mil) SOIC - S08
PIN 1 ID
4
1
1. DIMENSIONS IN INCHES[MM] MIN.
MAX.
2. PIN 1 ID IS OPTIONAL,
ROUND ON SINGLE LEADFRAME
RECTANGULAR ON MATRIX LEADFRAME
0.150[3.810]
0.157[3.987]
3. REFERENCE JEDEC MS-012
0.230[5.842]
0.244[6.197]
4. PACKAGE WEIGHT 0.07gms
PART #
S08.15 STANDARD PKG.
5
SZ08.15 LEAD FREE PKG.
8
0.189[4.800]
0.196[4.978]
0.010[0.254]
0.016[0.406]
SEATING PLANE
X 45°
0.061[1.549]
0.068[1.727]
0.004[0.102]
0.050[1.270]
BSC
0.004[0.102]
0.0098[0.249]
0.0138[0.350]
0.0192[0.487]
0°~8°
0.016[0.406]
0.035[0.889]
0.0075[0.190]
0.0098[0.249]
51-85066-*C
Notes
7. “xxx” denotes the assigned product dash number. “w” denotes the different programmed frequency and spread percentage options.
8. Not recommended for new designs.
Document #: 38-07499 Rev. *F
Page 10 of 13
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CY25100
Package Diagrams (continued)
Figure 7. 8-Pin Thin Shrunk Small Outline Package (4.40 mm Body) Z8
PIN 1 ID
1
DIMENSIONS IN MM[INCHES] MIN.
MAX.
6.25[0.246]
6.50[0.256]
4.30[0.169]
4.50[0.177]
8
0.65[0.025]
BSC.
0.19[0.007]
0.30[0.012]
1.10[0.043] MAX.
0.25[0.010]
BSC
GAUGE
PLANE
0°-8°
0.076[0.003]
0.85[0.033]
0.95[0.037]
0.05[0.002]
0.15[0.006]
2.90[0.114]
3.10[0.122]
SEATING
PLANE
0.50[0.020]
0.70[0.027]
0.09[[0.003]
0.20[0.008]
51-85093-*A
Document #: 38-07499 Rev. *F
Page 11 of 13
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CY25100
Document History Page
Document Title: CY25100 Field and Factory Programmable Spread Spectrum Clock Generator for EMI Reduction
Document Number: 38-07499
Rev.
ECN No.
Orig. of
Change
Submission
Date
Description of Change
**
126578
CKN
06/27/03
New Data Sheet
*A
128753
IJATMP
08/29/03
Changes to reflect field programmability
*B
130342
RGL
12/02/03
Changes to Application Circuit diagram and correction to the package
description listed under the Ordering Information table for CY3690 and
CY3691.
*C
204121
RGL
See ECN
Add Industrial Temperature Range
Corrected the Ordering Information to match the DevMaster
*D
215392
RGL
See ECN
Added Lead Free devices
*E
2513909
AESA
06/10/08
Updated template. Added Note “Not recommended for new designs.”
Added part number CY25100KSXCF, CY25100KSXIF, CY25100KSXI-xxx,
CY25100KZXC-xxx, CY25100KZXI-xxx, CY25100KSXI-xxxT,
CY25100KZXC-xxxT, CY25100KZXI-xxxT, and CY25100KZXIF in ordering
information table.
Added Pb-Free header in the ordering information table.
Removed Pb-Free from Package description in the ordering information table.
Changed CY3672-PRG with CY3672-USB in the ordering information table.
Removed CY25100SCF, CY25100SIF, CY25100ZCF, CY25100ZIF, and
CY3672 in the ordering information table.
Changed Lead free to Pb-Free.
*F
2601881
KVM/PYRS
11/06/08
Rising edge slew rate (SR3) minimum limit changed from 1.2V/ns to 1.0V/ns.
Removed part numbers added in rev *E.
Document #: 38-07499 Rev. *F
Page 12 of 13
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CY25100
Sales, Solutions, and Legal Information
Worldwide Sales and Design Support
Cypress maintains a worldwide network of offices, solution centers, manufacturer’s representatives, and distributors. To find the office
closest to you, visit us at cypress.com/sales.
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© Cypress Semiconductor Corporation, 2003-2008. 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 product. Nor does it convey or imply any license under patent or other rights. Cypress products are not warranted nor intended to be used for
medical, life support, life saving, critical control or safety applications, unless pursuant to an express written agreement with Cypress. Furthermore, Cypress 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 products in life-support systems
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United States copyright laws and international treaty provisions. Cypress hereby grants to licensee a personal, non-exclusive, non-transferable license to copy, use, modify, create derivative works of,
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Disclaimer: CYPRESS MAKES NO WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, WITH REGARD TO THIS MATERIAL, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE. Cypress reserves the right to make changes without further notice to the materials described herein. Cypress does not
assume any liability arising out of the application or use of any product or circuit described herein. Cypress 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’ product in a life-support systems application implies that the manufacturer
assumes all risk of such use and in doing so indemnifies Cypress against all charges.
Use may be limited by and subject to the applicable Cypress software license agreement.
Document #: 38-07499 Rev. *F
Revised November 4, 2008
Page 13 of 13
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