CY25814ZXC - Cypress Semiconductor Corp.

CY25811/12/14

Spread Spectrum Clock Generator

Cypress Semiconductor Corporation • 198 Champion Court • San Jose

CA 95134-1709 • 408-943-2600

Document Number: 38-07112 Rev. *G Revised October 22, 2008

Features

■

4 to 32 MHz input frequency range

■

4 to 128 MHz output frequency range

■

Accepts clock, cryst al, and resonator input s

■

1x, 2x, and 4x frequency multiplicatio n:

❐

CY25811: 1x; CY25812: 2x; CY25814: 4x

■

Center and down spread modulatio n

■

Low power dissipation:

❐

3.3V = 52 mW - typ at 6 MHz

❐

3.3V = 60 mW - typ at12 MHz

❐

3.3V = 72 mW - typ at 24 MHz

■

Low cycle to cycle jitter:

❐

8 MHz = 480 ps-max

❐

16 MHz = 400 ps-max

❐

32 MHz = 450 ps-max

■

Available in 8-pin SOIC and TSSOP packages

■

Commercial and industrial temperature ranges

Applications

■

Printers and MFPs

■

LCD panels

■

Digital copiers

■

PDAs

■

CD-ROM, VCD, and DVD

■

Networking, LAN, and WAN

■

Scanners

■

Modems

■

Embedded digital systems

Benefits

■

Peak EMI reduction by 8 to 16 dB

■

Fast time to market

■

Cost reduction

S1 S0

FRSEL

300K

VDD

VSS

XIN

XOUT

SSCLK

8pF

REFERENCE

DIVIDER

PD and

CP LF

VCO

COUNTE

COUNTER

and

MUX

INPUT

DECODER

LOGIC

MODULATION

CONTROL

3 46

8pF

Logic Block Diagram

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CY25811/12/14

Document Number: 38-07112 Rev. *G Page 2 of 13

Pinouts

Figure 1. Pin Diagram - 8 Pin SOIC/TSSOP

Table 1. Pin Definition - 8 Pin SOIC/TSSOP

Functional Description

The CY25811/12/14 products are Spread Spectrum Clock

Generator (SSCG) ICs used for the purpose of reducing electro-

magnetic interference (EMI) found in today’s high speed digital

electronic systems.

The devices use a Cypress proprietary phase-locked loop (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 is greatly reduced.

This reduction in radiated energy significantly reduces the cost

of complying with regulatory agency requirements and improves

time to market without degrading system performance.

The input frequency range is 4 to 32 MHz and accepts clock,

crystal and ceramic resonator inputs. The output clock can be

selected to produce 1x, 2x, or 4x multiplication of the input

frequency with Spread Spectrum Frequency Modulation.

The use of 2x or 4x frequency multiplication eliminates the need

for higher order crystals and enables the user to generate up to

128 MHz S pread S pectrum Clock (SSC) by using only first order

crystals. This reduces the cost while improving the system clock

accuracy, performance, and complexity.

The user selects Center Spread or Down Spread frequency

modulation based on four discrete valu es of Spread % for each

Spread mode with the option of a Non Spread mode for system

test and verification purposes.

The CY2581 1/12/14 products are available in an 8 pin SOIC -150

mil package with a commercia l operating temperature rang e of

0 to 70°C and Industrial Temperature range of –40 to 85°C. Refer

to CY25568 for multiple clock output options such as modulated

and unmodulated clock outputs or Power-down function. For

Automotive applications, refer to CY25811/12/14SE data sheets.

Input Frequency Range and Selection

The CY25811/12/14 inpu t freq uen cy range is 4 to 3 2 MHz. This

range is divided into three segments and controlled by a 3-Level

FRSEL pin as given in Table 2.

XIN/CLKIN

VSS

XOUT

VDD

FRSE L

SSCLK

CY25811

CY25812

CY25814

Pin No. Name Type Description

1Xin/CLK Cryst al, ceramic resonator or clock input pin

2VSS Power supply ground.

3S1 Digital Spread% control pin. 3-Level input (H-M-L). Default = M.

4S0 Digital Spread% control pin. 3-Level input (H-M-L). Default = M.

5 SSCLK Spread Spectrum output clock.

6 FRSEL Input frequency range selection digital control input. 3-Level input (H-M-L). Default = M.

7VDD Positive power supply.

8XOUT Crystal or ceramic resonator output pin.

Table 2. Input Frequency Selection

FRSEL Input Frequency Range

0 4.0 to 8.0 MHz

1 8.0 to 16.0 MHz

M 16.0 to 32.0 MHz

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CY25811/12/14

Document Number: 38-07112 Rev. *G Page 3 of 13

Spread Percentage Selection

The CY25811/12/14 SSCG products provide Center-Spread, Down-Spread, and No-Spread functions. The amount of Spread

percentage is selected using 3-Level. S0 and S1 digital inputs and Spread percent values are given in Table 3.

3-Level Digital Inputs

S0, S1, and FRSEL digital inputs are designed to sense 3

different logic levels designated as High “1”, Low “0”, and Middle

“M”. With this 3-Level digital input logic, the 3-Level Logic detects

nine different logic states.

S0, S1, and FRSEL pins include an on chip 20K (10K and 10K)

resistor divider. No external application resistors are needed to

implement the 3-Level logi c levels as shown here:

Logic Level “0”: 3–Level logic pin connected to GND.

Logic Level “M”: 3–Level logic pin left floating (no connection).

Logic Level “1”: 3–Level logic pin connected to V

Figure 2 illustrates how to implement 3–Level Logic.

Figure 2. 3–Level Logic

Modulation Rate

SSCGs use frequency modulation (FM) to distribute energy over

a specific band of frequ encies. The maximum frequency of the

clock (fmax), and minimum frequency of the clock (fmin)

determine this band of frequencies. The time required to

transition from fmin to fmax and back to fmin is the period of the

Modulation Rate. The Modulation Rate of SSCG clocks are

generally referred to in terms of frequency, or:

fmod = 1/Tmod.

The input clock frequency , fin, and the internal divider determine

the Modulation Rate.

In CY25811/2/4 devices, the (Spread Spectrum) modulation

Rate, fmod, is given by the following formula:

fmod = fin/DR

Here fmod is the Modulation Rate, fin is the Input Frequency , and

DR is the Divider Ratio as given in Table 4. Note that Input

Frequency Range is set by FRSEL.

Table 3. Spread Percent Selection

XIN

(MHz) FRSEL S1 = 0

S0 = 0 S1 = 0

S0 = M S1 = 0

S0 = 1 S1 = M

S0 = 0 S1 = 1

S0 = 1 S1 = 1

S0 = 0 S1 = M

S0 = 1 S1 = 1

S0 = M S1 = M

S0 = M

Center

(%) Center

(%) Down

(%) No Spread

4-5 0 ±1.4 ± 1.2 ± 0.6 ± 0.5 –3.0 –2.2 –1.9 –0.7 0

5-6 0 ±1.3 ± 1.1 ± 0.5 ± 0.4 –2.7 –1.9 –1.7 –0.6 0

6-7 0 ±1.2 ± 0.9 ± 0.5 ± 0.4 –2.5 –1.8 –1.5 –0.6 0

7-8 0 ±1.1 ± 0.9 ± 0.4 ± 0.3 –2.3 –1.7 –1.4 –0.5 0

8-10 1 ±1.4 ±1.2 ± 0.6 ± 0.5 –3.0 –2.2 –1.9 –0.7 0

10-12 1 ±1.3 ±1.1 ± 0.5 ± 0.4 –2.7 –1.9 –1.7 –0.6 0

12-14 1 ±1.2 ± 0.9 ± 0.5 ± 0.4 –2.5 –1.8 –1.5 –0.6 0

14-16 1 ±1.1 ± 0.9 ± 0.4 ± 0.3 –2.3 –1.7 –1.4 –0.5 0

16-20 M ±1.4 ±1.2 ± 0.6 ± 0.5 –3.0 –2.2 –1.9 –0.7 0

20-24 M ±1.3 ±1.1 ± 0.5 ± 0.4 –2.7 –1.9 –1.7 –0.6 0

24-28 M ±1.2 ± 0.9 ± 0.5 ± 0.4 –2.5 –1.8 –1.5 –0.6 0

28-32 M ±1.1 ± 0.9 ± 0.4 ± 0.3 –2.3 –1.7 –1.4 –0.5 0

LOGIC

MIDDLE (M) LOGIC

HIGH (H)

S0, S1

and

FRSEL

to VDD

S0, S1

and

FRSEL

UNCONNECTED

S0, S1

and

FRSEL

to VSS

VSS

LOGIC

LOW (0)

Table 4. Modulation Rate Divider Ratios

FRSEL Input Frequency Range

(MHz) Divider Ratio

(DR)

0 4 to 8 128

1 8 to 16 256

M 16 to 32 512

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CY25811/12/14

Document Number: 38-07112 Rev. *G Page 4 of 13

Input and Output Frequency Selection

The relationship between input frequency and output frequency in device selection and FRSEL setting is given in Table 5. As shown,

the input frequency range is selected b y FRSEL and is the same for CY25811, CY25812, and C Y25814. Th e selection of CY25811

(1x), CY25812 (2x), or CY25814 (4x) determines the frequency multiplication at the output (SSCLK, Pin 5) with respect to input

frequency (XIN, Pin-1).

Table 5. Input and Output Fre quen cy Selection

Input Frequency Range

(MHz) FRSEL Product Multiplication Output Freq uency Range

(MHz)

4 to 8 0 CY25811 1x 4 to 8

8 to 16 1 CY25811 1x 8 to 16

16 to 32 M CY25811 1x 16 to 32

4 to 8 0 CY25812 2x 8 to 16

8 to 16 1 CY25812 2x 16 to 32

16 to 32 M CY25812 2x 32 to 64

4 to 8 0 CY25814 4x 16 to 32

8 to 16 1 CY25814 4x 32 to 64

16 to 32 M CY25814 4x 64 to 128

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CY25811/12/14

Document Number: 38-07112 Rev. *G Page 5 of 13

Absolute Maximum Conditions

(both Commercial and Industrial Grades)

[1,2]

Parameter Description Condition Min Max Unit

Supply Voltage –0.5 4.6 V

Input Voltage Relative to V

–0.5 V

+ 0.5 VDC

Temperature, Storage Non Functional –65 150 °C

Temperature, Operating Ambie nt Functional, C-Grade 0 70 °C

Temperature, Operating Ambie nt Functional, I-Grade –40 85 °C

Temperature, Junction Functional – 150 °C

ESD

HBM

ESD Protection (Human Body Model) MIL-STD-883, Meth od 3015 2000 – V

UL-94 Flammability Rating @1 /8 in. V–0

MSL Moisture Sensitivity Level 1

DC Electrical Specifications

(Commercial Grade)

Parameter Description Condition Min Max Unit

3.3 Operating Voltage 3.3 ± 10% 3.97 3.63 V

Input Low Voltage S0, S1 and FRSEL Inputs 0 0.15V

Input Middle Voltage S0, S1 and FRSEL Inputs 0.40V

0.60V

Input High Voltage S0, S1 and FRSEL Inputs 0.85V

OL1

Output Low Voltage I

= 4 ma, SSCLK Output – 0.4 V

OL2

Output Low Voltage I

= 10 ma, SSCLK Output – 1.2 V

OH1

Output High Voltage I

= 4 ma, SSCLK Output 2.4 – V

OH2

Output High Voltage I

= 6 ma, SSCLK Output 2.0 – V

IN1

Input Pin Capacitance XIN (Pin 1) and XOUT (Pin 8) 3.5 9.0 pF

IN2

Input Pin Capacitance All Digital Inputs 2.8 6.0 pF

Output Load Capacitor SSCLK Output – 15 pF

DD1

Dynamic Supply Current Fin = 12 MHz, no load – 28 mA

DD2

Dynamic Supply Current Fin = 24 MHz, no load – 33 mA

DD3

Dynamic Supply Current Fin = 32 MHz, no load – 40 mA

Notes

1. Operation at any Absolute Maximum Rating is not implied.

2. Single Power Supply: The voltage on any input or I/O pin cannot exceed the powe r pi n during power up.

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CY25811/12/14

Document Number: 38-07112 Rev. *G Page 6 of 13

AC Electrical Specifications

(Commercial Gra de)

Parameter Description Condition Min Max Unit

Input Frequency Range Clock, Crystal, or Ceramic Resonator Input 4 32 MHz

Clock Rise Time SSCLK, CY25811 an d CY25812 2.0 5.0 ns

Clock Fall Time SSCLK, CY25811 and CY25812 1.6 4.4 ns

Clock Rise Time SSCLK, only CY25814 when FRSEL = M 1.0 2.2 ns

Clock Fall Time SSCLK, only CY25814 when FRSEL = M 0.8 2.2 ns

DCIN

Input Clock Duty Cycle XIN 40 60 %

DCOUT

Output Clock Duty Cycle SSCLK 40 60 %

CCJ1

Cycle to Cycle Jitter, Spread on Fin = 4 MHz, Fout = 4 MHz, CY25811 – 800 ps

CCJ2

Cycle to Cycle Jitter, Spread on Fin = 8 MHZ, Fout = 8 MHz, CY25811 – 480 ps

CCJ3

Cycle to Cycle Jitter, Spread on Fin = 8 MHz, Fout = 16 MHz, CY25812 – 400 ps

CCJ4

Cycle to Cycle Jitter, Spread on Fin = 16 MHz, Fout = 32 MHz, CY25812 – 450 ps

CCJ5

Cycle to Cycle Jitter, Spread on Fin = 16 MHz, Fout = 64 MHz, CY25814 – 550 ps

CCJ6

Cycle to Cycle Jitter, Spread on Fin = 32 MHz, Fout = 128 MHz, CY258 14 – 380 ps

PLL Lock Time Fom V

3.0V to valid SSCLK – 3 ms

DC Electrical Specifications

(Industrial Grade)

Parameter Description Condition Min Max Unit

3.3 Operating Voltage 3.3 ± 5% 3.135 3.465 V

Input Low Voltage S0, S1 and FRSEL Inputs 0 0.13V

Input Middle Voltage S0, S1 and FRSEL Inputs 0.40V

0.60V

Input High Voltage S0, S1 and FRSEL Inputs 0.85V

OL1

Output Low Voltage I

= 4 ma, SSCLK Output – 0.4 V

OL2

Output Low Voltage I

= 10 ma, SSCLK Output – 1.2 V

OH1

Output High Voltage I

= 4 ma, SSCLK Output 2.4 – V

OH2

Output High Voltage I

= 6 ma, SSCLK Output 2.0 – V

IN1

Input Pin Capacitance XIN (Pin 1) and XOUT (Pin 8) 3.5 9.0 pF

IN2

Input Pin Capacitance All Digital Inputs 2.8 6.0 pF

Output Load Capacitor SSCLK Output – 15 pF

DD1

Dynamic Supply Current Fin = 12 MHz, no load – 28 mA

DD2

Dynamic Supply Current Fin = 24 MHz, no load – 33 mA

DD3

Dynamic Supply Current Fin = 32 MHz, no load – 41 mA

AC Electrical Specifications

(Industrial Grade)

Parameter Description Condition Min Max Unit

Input Frequency Range Clock, Crystal or Ceramic Resonator Input 4 32 MHz

Clock Rise Time SSCLK, CY25811, and CY25812 2.0 5.0 ns

Clock Fall Time SSCLK, CY25811, and CY25812 1.6 4.4 ns

Clock Rise Time SSCLK, only CY25814 when FRSEL = M 1.0 2.2 ns

Clock Fall Time SSCLK, only CY25814 when FRSEL = M 0.8 2.2 ns

DCIN

Input Clock Duty Cycle XIN 40 60 %

DCOUT

Output Clock Duty Cycle SSCLK 40 60 %

CCJ1

Cycle to Cycle Jitter, Spread on Fin = 6MHz, CY25811/12/14 – 650 ps

[+] Feedback

CY25811/12/14

Document Number: 38-07112 Rev. *G Page 7 of 13

Characteristic Curves

The following curves demonstrate the characteristic behavior of CY258 11/12/14 whe n tested over a number of environmental and

application specific parameters. These are typical perfo rmance curve s and are n ot meant to replace any parameter specified in DC

and AC Specification tables.

Figure 3. Characteristic Curves

CCJ2

Cycle-to-Cycle Jitter, Spread on Fin = 12MHZ, CY25811/12/14 – 630 ps

CCJ3

Cycle-to-Cycle Jitter, Spread on Fin = 24MHz, CY25811/12/1 4 – 520 ps

PLL Lock Time From V

3.0V to valid SSCLK – 4 ms

AC Electrical Specifications

(Industrial Grade) (continue d)

Parameter Description Condition Min Max Unit

100

200

300

400

500

600

4 8 12 16 20 24 28 32

Input Frequency (MH z)

CCJ (ps)

1.75

2.25

2.5

2.75

-40 -25 -10 5 20 35 50 65 80 95 110 125

Temp (C)

BW %

6.0 MH z

32.0 MH z

1.8

1.9

2.1

2.2

2.3

2.4

2.5

2.6

2.7

2.8

2.9

2.8 2.9 3 3.1 3.2 3.3 3.4 3.5 3.6 3.7

VDD (volts)

BW (%)

4.0 M Hz

8.0 M Hz

4 4.5 5 5.5 6 6.5 7 7.5 8

Frequency (MHz), no load, normalized to FRSEL = 0, (4 - 8 MHz).

IDD (mA)

FRSEL = 0

4 - 8 MHz

FRSEL = 1

8 - 16 MH z

FRSEL = M

16 - 32 MH z

Jitter vs. Input Frequency (No Load) Bandwidth % vs. Temperature

IDD vs. Frequency (FRSEL = 0, 1, M) Bandwidth % vs. VDD

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CY25811/12/14

Document Number: 38-07112 Rev. *G Page 8 of 13

SSCG Profiles

CY25811/12/14 SSCG products use a non-linear “optimized” frequency profile as shown In Figure 4. The use of Cypress proprietary

“optimized” frequency profile maintains flat energy distribution over the fundamental and higher order harmonics. This results in

additional EMI reduction in el ectronic systems.

Figure 4. Spread Spectrum Profiles (Frequency versus Time)

Xin = 6.0 MHz SSCLK1 = 6.0 MHz

S1, S0 = 0

FRSEL = 0 P/N = CY25811

Xin = 24.0 MHz SSCLK1 = 24.0 MHz

S1, S0 = 0

FRSEL = M P/N = CY25811

Xin = 12.0 MHz SSCLK1 = 48.0 MHz

S1, S0 = 0

FRSEL = 1 P/N = CY25814

Xin = 24.0 MHz SSCLK1 = 96.0 MHz

S1, S0 = 0

FRSEL = M P/N = CY25814

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CY25811/12/14

Document Number: 38-07112 Rev. *G Page 9 of 13

Application Schematic

VDD

27 pF

25 MHz

FR SEL

VSS

XIN

X OU T

SSCLK

VDD

CY25811

CY25812

CY25814

0.1 uF

27 pF 25 MHz (CY25811)

50 MHz (CY25812)

100 MHz (CY25814)

N/C

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CY25811/12/14

Document Number: 38-07112 Rev. *G Page 10 of 13

Package Drawing and Dimensions

Figure 5. 8-Pin (150-Mil) SOIC S8 (51-85066)

Ordering Information

Part Number Package Type Product Flow

Pb-Free Devices

CY25811SXC 8-pin SOIC Commercial, 0° to 70°C

CY25811SXCT 8-pin SOIC – Tape and Reel Commercial, 0° to 70°C

CY25811SXI 8-pin SOIC Industrial, –40° to 85°C

CY25811SXIT 8-pin SOIC – Tape and Reel Industrial, –40° to 85°C

CY25811ZXC 8-pin TSSOP Commercial, 0° to 70°C

CY25811ZXCT 8-pin TSSOP – Tape and Reel Commercial, 0° to 70°C

CY25812SXC 8-pin SOIC Commercial, 0° to 70°C

CY25812SXCT 8-pin SOIC – Tape and Reel Commercial, 0° to 70°C

CY25812SXI 8-pin SOIC Industrial, –40° to 85°C

CY25812SXIT 8-pin SOIC – Tape and Reel Industrial, –40° to 85°C

CY25812ZXC 8-pin TSSOP Commercial, 0° to 70°C

CY25812ZXCT 8-pin TSSOP – Tape and Reel Commercial, 0° to 70°C

CY25814SXC 8-pin SOIC Commercial, 0° to 70°C

CY25814SXCT 8-pin SOIC – Tape and Reel Commercial, 0° to 70°C

CY25814SXI 8-pin SOIC Industrial, –40° to 85°C

CY25814SXIT 8-pin SOIC – Tape and Reel Industrial, –40° to 85°C

CY25814ZXC 8-pin TSSOP Commercial, 0° to 70°C

CY25814ZXCT 8-pin TSSOP – Tape and Reel Commercial, 0° to 70°C

SEATING PLANE

PIN1ID

0.230[5.842]

0.244[6.197]

0.157[3.987]

0.150[3.810]

0.189[4.800]

0.196[4.978]

0.050[1.270]

BSC

0.061[1.549]

0.068[1.727]

0.004[0.102]

0.0098[0.249]

0.0138[0.350]

0.0192[0.487]

0.016[0.406]

0.035[0.889]

0.0075[0.190]

0.0098[0.249]

1. DIMENSIONS IN INCHES[MM] MIN.

MAX.

0°~8°

0.016[0.406]

0.010[0.254] X 45°

2. PIN 1 ID IS OPTIONAL,

ROUND ON SINGLE LEADFRAME

RECTANGULAR ON MATRIX LEADFRAME

0.004[0.102]

3. REFERENCE JEDEC MS-012

PART #

S08.15 STANDARD PKG.

SZ08.15 LEAD FREE PKG.

4. PACKAGE WEIGHT 0.07gms

51-85066-*C

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CY25811/12/14

Document Number: 38-07112 Rev. *G Page 11 of 13

Figure 6. 8-Pin Thin Shrunk Small Outline Package (4.40 MM Body) Z8 (51-85093)

PIN1ID

SEATING

PLANE

BSC.

BSC

0°-8°

PLANE

GAUGE

2.90[0.114]

1.10[0.043] MAX.

0.65[0.025]

0.20[0.008]

0.05[0.002]

6.50[0.256]

0.076[0.003]

6.25[0.246]

4.50[0.177]

4.30[0.169]

3.10[0.122]

0.15[0.006]

0.19[0.007]

0.30[0.012]

0.09[[0.003]

0.25[0.010]

0.70[0.027]

0.50[0.020]

0.95[0.037]

0.85[0.033]

DIMENSIONS IN MM[INCHES] MIN.

MAX.

51-85093-*A

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CY25811/12/14

Document Number: 38-07112 Rev. *G Page 12 of 13

Document History Page

Document Title: CY2581 1/12/14 Spread Spectrum Clock Generator

Document Number: 38-07112

Rev. ECN NO. Submis-

sion Date Orig. of

Change Description o f Change

** 107516 06/14/02 NDP Converted from IMI to Cypress

*A 108002 06/29/02 NDP Deleted Junction Temp. in Absolute Maximum Ratings

*B 121578 01/29/03 RGL Converted from Word to FrameMaker

Added 8-pin TSSOP package in Commercial Temp. only

Added an Industrial Temperature Range to all existing 8-pin SOIC packages

*C 125550 05/14/03 RGL Changed IDD values from 19.6/22/27.2 to 25/30/35 in Commercial Grade DC Specs

table

Changed IDD values from 24/26. 5/33 to 26/32/37 in Industrial grade DC Specs table

Changed T

CCJ1/2

values from 675/260 to 800/450 in Commercial grade AC Specs table

Changed T

CCJ1

value from 350 to 650 in Industrial grade AC Specs table

*D 131941 12/24/03 RGL Removed automotive in the Applications section

Changed the Output Clock Duty Cycle (T

DCOUT

) from min. 45 and max. 55 to 40 and

60% respectively for both industrial and commercial grade

Changed the min. Input Low Voltage (V

) from 0.15V

to 0.13V

Removed preliminary from the industrial AC/DC Electrical Specifications table

*E 231057 See ECN RGL Added Pb Free Devices

*F 1499165 See ECN KVM Updated Ordering Information table

Corrected jitter values in features section on page 1

Changed:VDD from ±5% to ±10%, CIN1 min from 6 to 3.5 pF, CIN2 min from 3.5 to 2.8

pF, TF1 min from 2 to 1.6 ns, and TF2 min from 1.0 to 0.8 ns.

Commercial grade: IDD1 max from 25 to 28 mA, IDD2 max from 30 to 33 mA, IDD3

max from 35 to 40 mA, TCCJ2 from 450 to 480 ps, TCCJ4 from 380 to 450 ps, and

TCCJ5 from 380 to 550 ps

Industrial grade: IDD1 max from 26 to 28 mA, IDD2 max from 32 to 33 mA, IDD3 max

from 37 to 41 mA, TCCJ2 from 400 to 630 ps,and TCCJ3 from 400 to 520 ps

*G 2592288 10 /23/08 CXQ/PYRS Removed Pb package devices from Ordering Table

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Document Number: 38-07112 Rev. *G Revised October 22, 2008 Page 13 of 13

All products and company names mentioned in this document may be the trademarks o f t heir respect i ve holders.

CY25811/12/14(s)

any circuitry other than circuitry embodied in a Cypress product. Nor does it convey or imply any license under patent or other rights. Cypress produc ts are n ot war ran t ed nor int e nded to be used for

medical, life supp or t, l if e savi n g, cr it ical control or safety applications, unless pursuant to an express wr itten agreement with Cypress. Furth er m ore, Cypress does not authorize its products for use as

critical components in life-support systems where a malfunction or failur e may reasonably be expected to result in significant injury to the user. The inclusion of Cypress product s in life-support syst ems

application implies that the manufacturer assumes all risk of such use and in doing so indemnifies Cypress against all charges.

Any Source Code (software and/or firmware) is owned by Cypress Semiconductor Corporation (Cypress) and is protected by and subject to worldwide patent protection (United States and foreign),

United States copyright laws and interna tion al trea ty provisi ons. Cyp ress he reby gr ant s t o license e a per sonal , non- exclus ive, no n-tran sferab le lic ense to cop y, use, modify, create derivative works of ,

and compile the Cypress Source Code and derivative works for the sole purpose of creating custom software and or firmware in support of lice nsee product to be used on ly in conjunction wit h a Cypress

integrated circui t as specified in the applicab le agreement. Any r eproduction, m odification, transl ation, compilatio n, or represent ation of this S ource Code exce pt as specified above is prohib ited without

the express written permission of Cypress.

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 FITNE SS FOR A PARTICULAR PURPOSE. Cypress reserves the right to make changes without further notice to the materials described herein. Cypress does not

assume any liabil ity ar ising ou t of t he app licati on or us e of an y product or circ uit de scrib ed herei n. Cypr ess does n ot auth orize it s product s for use a s critical componen ts in life-suppo rt 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 m anufacturer

assumes all risk of such use and in doing so indemnifies Cypr ess against all charges.

Use may be limited by and subject to the applicable Cypress software license agreement.

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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Clocks & Buffers clocks.cypress.com

Wireless wireless.cypress.com

Memories memory.cypress.com

Image Sensors image.cypress.com

PSoC Solutions

General psoc.cypress.com/solutions

Low Power/Low Voltage psoc.cypress.com/low-power

Precision Analog psoc.cypress.com/precision-analog

LCD Drive psoc.cypress.com/lcd-drive

CAN 2.0b psoc.cypress.com/can

USB psoc.cypress.com/usb

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