CYPRESS CY22392ZXC-XXXT

CY22392
Three-PLL General Purpose
FLASH Programmable Clock Generator
Features
■
Three integrated phase-locked loops
■
Ultra Wide Divide Counters (8-bit Q, 11-bit P, and 7-bit Post
Divide)
■
Improved Linear Crystal Load capacitors
■
Flash programmability
■
Field programmable
■
Low-jitter, high-accuracy outputs
■
Power-management options (Shutdown, OE, Suspend)
■
Configurable Crystal drive strength
■
Frequency Select through 3 external LVTTL Inputs
■
3.3V operation
■
16-pin TSSOP packages
■
CyClocksRT™ Support
Benefits
■
■
Generates up to 3 unique frequencies on 6 outputs up to 200
MHz from an external source. Functional upgrade for current
CY2292 family.
Allows for 0 ppm Frequency Generation and Frequency
Conversion under the most demanding applications.
■
Improves frequency accuracy over temperature, age, process,
and initial offset.
■
Non-Volatile programming enables easy customization,
ultra-fast turnaround, performance tweaking, design timing
margin testing, inventory control, lower part count, and more
secure product supply. In addition, any part in the family can
also be programmed multiple times which reduces
programming errors and provides an easy upgrade path for
existing designs.
■
In-house programming of samples and prototype quantities is
available using the CY3672 FTG Development Kit. Production
quantities are available through Cypress Semiconductor’s
value added Distribution partners or by using third party
programmers from BP Microsystems, HiLo Systems, and
others.
■
Performance suitable for high-end multimedia,
communications, industrial, A/D Converters, and consumer
applications.
■
Supports numerous low-power application schemes and
reduces EMI by allowing unused outputs to be turned off.
■
Adjust Crystal Drive Strength for compatibility with virtually all
crystals.
■
3-Bit External Frequency Select Options for PLL1, CLKA, and
CLKB.
■
Industry-standard supply voltage.
■
Industry-standard packaging saves on board space.
■
Easy to use software support for design entry.
Logic Block Diagram
XTALIN
XTALOUT
XBUF
OSC.
CONFIGURATION
FLASH
PLL1
11 BIT P
8 BIT Q
SHUTDOWN/OE
PLL2
S0
11 BIT P
8 BIT Q
S1
S2/SUSPEND
4x4
Crosspoint
Switch
PLL3
11 BIT P
8 BIT Q
Cypress Semiconductor Corporation
Document #: 38-07013 Rev. *E
•
198 Champion Court
•
Divider
/2,3, or 4
CLKE
Divider
7 BIT
CLKD
Divider
7 BIT
CLKC
Divider
7 BIT
CLKB
Divider
7 BIT
CLKA
San Jose, CA 95134-1709
•
408-943-2600
Revised October 10, 2008
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CY22392
Pinouts
Figure 1. CY22392 - 16-pin TSSOP
CLKC
1
16
VDD
2
15
S2/SUSPEND
SHUTDOWN/OE
AGND
3
14
AVDD
XTALIN
4
13
S1
XTALOUT
XBUF
5
12
6
11
S0
GND
CLKD
7
10
CLKA
CLKE
8
9
CLKB
Pin Definitions
Name
CLKC
Pin Number
1
Description
Configurable clock output C
VDD
2
Power supply
AGND
3
Analog Ground
XTALIN
4
Reference crystal input or external reference clock input
XTALOUT
5
Reference crystal feedback
XBUF
6
Buffered reference clock output
CLKD
7
Configurable clock output D
CLKE
8
Configurable clock output E
CLKB
9
Configurable clock output B
CLKA
10
Configurable clock output A
GND
11
Ground
S0
12
General Purpose Input for Frequency Control; bit 0
S1
13
General Purpose Input for Frequency Control; bit 1
AVDD
14
Analog Power Supply
S2/
SUSPEND
15
General Purpose Input for Frequency Control; bit 2. Optionally Suspend mode control
input.
SHUTDOWN/OE
16
Places outputs in three-state condition and shuts down chip when LOW. Optionally,
only places outputs in tristate condition and does not shut down chip when LOW
Document #: 38-07013 Rev. *E
Page 2 of 9
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CY22392
Operation
applications that
requirements.
The CY22392 is an upgrade to the existing CY2292. The new
device has a wider frequency range, greater flexibility, improved
performance, and incorporates many features that reduce PLL
sensitivity to external system issues.
The value of the load capacitors is determined by six bits in a
programmable register. The load capacitance can be set with a
resolution of 0.375 pF for a total crystal load range of 6 pF to
30 pF.
The device has three PLLs which, when combined with the
reference, allow up to four independent frequencies to be output
on up to six pins. These three PLLs are completely
programmable.
For driven clock inputs the input load capacitors may be
completely bypassed. This enables the clock chip to accept
driven frequency inputs up to 166 MHz. If the application requires
a driven input, then XTALOUT must be left floating.
Configurable PLLs
Output Configuration
PLL1 generates a frequency that is equal to the reference
divided by an 8-bit divider (Q) and multiplied by an 11-bit divider
in the PLL feedback loop (P). The output of PLL1 is sent to the
crosspoint switch. The output of PLL1 is also sent to a /2, /3, or
/4 synchronous post-divider that is output through CLKE. The
frequency of PLL1 can be changed by external CMOS inputs,
S0, S1, S2. See the following section on General-Purpose Inputs
for more details.
Under normal operation there are four internal frequency
sources that may be routed through a programmable crosspoint
switch to any of the four programmable 7-bit output dividers. The
four sources are: reference, PLL1, PLL2, and PLL3. In addition,
many outputs have a unique capability for even greater flexibility.
The following is a description of each output.
PLL2 generates a frequency that is equal to the reference
divided by an 8-bit divider (Q) and multiplied by an 11-bit divider
in the PLL feedback loop (P). The output of PLL2 is sent to the
crosspoint switch.
PLL3 generates a frequency that is equal to the reference
divided by an 8-bit divider (Q) and multiplied by an 11-bit divider
in the PLL feedback loop (P). The output of PLL3 is sent to the
cross-point switch.
General-Purpose Inputs
S0, S1, and S2 are general-purpose inputs that can be
programmed to allow for eight different frequency settings.
Options that may be switched with these general purpose inputs
are as follows; the frequency of PLL1, the output divider of CLKB,
and the output divider of CLKA.
CLKA and CLKB both have 7-bit dividers that point to one of two
programmable settings (register 0 and register 1). Both clocks
share a single register control, so both must be set to register 0,
or both must be set to register 1.
For example: the part may be programmed to use S0, S1, and
S2 (0,0,0 to 1,1,1) to control eight different values of P and Q on
PLL1. For each PLL1 P and Q setting, one of the two CLKA and
CLKB divider registers can be chosen. Any divider change as a
result of switching S0, S1, or S2 is guaranteed to be glitch free.
are
sensitive
to
absolute
frequency
CLKA’s output originates from the crosspoint switch and goes
through a programmable 7-bit post divider. The 7-bit post divider
derives its value from one of two programmable registers. Each
of the eight possible combinations of S0, S1, S2 controls which
of the two programmable registers is loaded into CLKA’s 7-bit
post divider. See the section “General-Purpose Inputs” for more
information.
CLKB’s output originates from the crosspoint switch and goes
through a programmable 7-bit post divider. The 7-bit post divider
derives its value from one of two programmable registers. Each
of the eight possible combinations of S0, S1, and S2 controls
which of the two programmable registers is loaded into CLKA’s
7-bit post divider. See the section “General-Purpose” Inputs for
more information.
CLKC’s output originates from the crosspoint switch and goes
through a programmable 7-bit post divider. The 7-bit post divider
derives its value from one programmable register.
CLKD’s output originates from the crosspoint switch and goes
through a programmable 7-bit post divider. The 7-bit post divider
derives its value from one programmable register.
CLKE’s output originates from PLL1 and goes through a post
divider that may be programmed to /2, /3, or /4.
XBUF is simply the buffered reference.
Crystal Input
The Clock outputs have been designed to drive a single point
load with a total lumped load capacitance of 15 pF. While driving
multiple loads is possible with the proper termination it is
generally not recommended.
The input crystal oscillator is an important feature of this device
because of its flexibility and performance features.
Power Saving Features
The oscillator inverter has programmable drive strength. This
allows for maximum compatibility with crystals from various
manufacturers, processes, performances, and qualities.
The input load capacitors are placed on-die to reduce external
component cost. These capacitors are true parallel-plate
capacitors for ultra-linear performance. These were chosen to
reduce the frequency shift that occurs when non-linear load
capacitance interacts with load, bias, supply, and temperature
changes. Non-linear (FET gate) crystal load capacitors must not
be used for MPEG, POTS dial tone, communications, or other
Document #: 38-07013 Rev. *E
The SHUTDOWN/OE input three-states the outputs when pulled
LOW. If system shutdown is enabled, a LOW on this pin also
shuts off the PLLs, counters, the reference oscillator, and all
other active components. The resulting current on the VDD pins
is less than 5 μA (typical). After leaving shutdown mode, the
PLLs will have to relock.
The S2/SUSPEND input can be configured to shut down a
customizable set of outputs and/or PLLs, when LOW. All PLLs
and any of the outputs can be shut off in nearly any combination.
The only limitation is that if a PLL is shut off, all outputs derived
from it must also be shut off. Suspending a PLL shuts off all
Page 3 of 9
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CY22392
associated logic, while suspending an output simply forces a
three-state condition.
can download a copy of CyClocksRT for free on Cypress’s web
site at www.cypress.com.
Improving Jitter
Junction Temperature Limitations
Jitter Optimization Control is useful in mitigating problems
related to similar clocks switching at the same moment, causing
excess jitter. If one PLL is driving more than one output, the
negative phase of the PLL can be selected for one of the outputs
(CLKA–CLKD). This prevents the output edges from aligning,
allowing superior jitter performance.
It is possible to program the CY22392 such that the maximum
Junction Temperature rating is exceeded. The package θJA is
115 C/W. Use the CyClocksRT power estimation feature to verify
that the programmed configuration meets the Junction
Temperature and Package Power Dissipation maximum ratings.
Power Supply Sequencing
Maximum Ratings
For parts with multiple VDD pins, there are no power supply
sequencing requirements. The part is not be fully operational
until all VDD pins have been brought up to the voltages specified
in the “Operating Conditions” table.
Exceeding maximum ratings may shorten the useful life of the
device. User guidelines are not tested.
Supply Voltage................................................–0.5V to +7.0V
All grounds must be connected to the same ground plane.
CyClocksRT™ Software
DC Input Voltage ........................... –0.5V to + (AVDD + 0.5V)
Storage Temperature ................................. –65°C to +125°C
Junction Temperature .................................................. 125°C
CyClocksRT is our second-generation application that allows
users to configure this device. The easy-to-use interface offers
complete control of the many features of this family including
input frequency, PLL and output frequencies, and different
functional options. Data sheet frequency range limitations are
checked and performance tuning is automatically applied.
CyClocksRT also has a power estimation feature that allows you
to see the power consumption of your specific configuration. You
Data Retention at Tj = 125°C .................................>10 years
Maximum Programming Cycles........................................100
Package Power Dissipation...................................... 350 mW
Static Discharge Voltage
(per MIL-STD-883, Method 3015) ..........................................
2000V
Latch up (per JEDEC 17) .................................... > ±200 mA
Operating Conditions[1]
Parameter
Description
VDD/AVDD
Supply Voltage
TA
Commercial Operating Temperature, Ambient
Industrial Operating Temperature, Ambient
Min
Typ.
Max
Unit
3.135
3.3
3.465
V
0
–
+70
°C
–40
–
+85
°C
CLOAD_OUT
Max. Load Capacitance
–
–
15
pF
fREF
External Reference Crystal
8
–
30
MHz
External Reference Clock[2], Commercial
1
–
166
MHz
[2],
External Reference Clock
tPU
Industrial
Power up time for all VDD's to reach minimum specified voltage
(power ramps must be monotonic)
1
–
150
MHz
0.05
–
500
ms
Notes
1. Unless otherwise noted, Electrical and Switching Characteristics are guaranteed across these operating conditions.
2. External input reference clock must have a duty cycle between 40% and 60%, measured at VDD/2.
Document #: 38-07013 Rev. *E
Page 4 of 9
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CY22392
Switching Characteristics
Parameter
1/t1
t2
Name
Output Frequency
Description
[3, 4]
Output Duty Cycle[3, 5]
Min.
Typ.
Max.
Unit
Clock output limit, Commercial
–
–
200
MHz
Clock output limit, Industrial
–
–
166
MHz
Duty cycle for outputs, defined as t2 ÷ t1,
Fout < 100 MHz, divider >= 2, measured at VDD/2
45%
50%
55%
Duty cycle for outputs, defined as t2 ÷ t1,
Fout > 100 MHz or divider = 1, measured at VDD/2
40%
50%
60%
t3
Rising Edge Slew Rate[3] Output clock rise time, 20% to 80% of VDD
0.75
1.4
–
V/ns
t4
Falling Edge Slew
Rate[3]
Output clock fall time, 20% to 80% of VDD
0.75
1.4
–
V/ns
t5
Output three-state
Timing[3]
Time for output to enter or leave three-state mode
after SHUTDOWN/OE switches
–
150
300
ns
t6
Clock Jitter[3, 6]
Peak-to-peak period jitter, CLK outputs measured
at VDD/2
–
400
–
ps
t7
Lock Time[3]
PLL Lock Time from Power up
–
1.0
3
ms
Switching Waveforms
Figure 2. All Outputs, Duty Cycle and Rise/Fall Time
t1
t2
OUTPUT
t3
t4
Figure 3. Output Three-State Timing
OE
t5
t5
ALL
THREE-STATE
OUTPUTS
Figure 4. CLK Output Jitter
t6
CLK
OUTPUT
Notes
3. Guaranteed by design, not 100% tested.
4. Guaranteed to meet 20%–80% output thresholds and duty cycle specifications.
5. Reference Output duty cycle depends on XTALIN duty cycle.
6. Jitter varies significantly with configuration. Reference Output jitter depends on XTALIN jitter and edge rate.
Document #: 38-07013 Rev. *E
Page 5 of 9
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CY22392
Switching Waveforms (continued)
Figure 5. Frequency Change
SELECT
OLD SELECT
Fold
NEW SELECT STABLE
t7
Fnew
OUTPUT
Test Circuit
AVDD
0.1 μF
OUTPUTS
CLK out
CLOAD
VDD
0.1 μF
GND
Document #: 38-07013 Rev. *E
Page 6 of 9
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CY22392
Ordering Information
Ordering Code
[8]
Package Name
Package Type
Operating Range
Operating Voltage
CY22392FC
Z16
16-TSSOP
Commercial (TA = 0°C to 70°C)
3.3V
CY22392FCT[8]
Z16
16-TSSOP – Tape and Reel
Commercial (TA = 0°C to 70°C)
3.3V
Z16
16-TSSOP
Commercial (TA = 0°C to 70°C)
3.3V
Z16
16-TSSOP – Tape and Reel
Commercial (TA = 0°C to 70°C)
3.3V
Z16
16-TSSOP
Industrial (TA = –40°C to 85°C)
3.3V
Z16
16-TSSOP – Tape and Reel
Industrial (TA = –40°C to 85°C)
3.3V
3.3V
CY22392ZC-xxx
[7, 8]
CY22392ZC-xxxT[7, 8]
CY22392ZI-xxx
[7, 8]
[7, 8]
CY22392ZI-xxxT
FTG Programmer
CY3672-USB
CY22392F, CY22393F
CY22394F and CY22395F
Adapter for CY3672-USB
CY3698
Pb Free
CY22392FXC
Z16
16-TSSOP
Commercial (TA = 0°C to 70°C)
CY22392FXCT
Z16
16-TSSOP – Tape and Reel
Commercial (TA = 0°C to 70°C)
3.3V
CY22392FXI
Z16
16-TSSOP
Industrial (TA = –40°C to 85°C)
3.3V
CY22392FXIT
Z16
16-TSSOP – Tape and Reel
Industrial (TA = –40°C to 85°C)
3.3V
CY22392ZXC-xxx[7]
Z16
16-TSSOP
Commercial (TA = 0°C to 70°C)
3.3V
CY22392ZXC-xxxT[7]
Z16
16-TSSOP – Tape and Reel
Commercial (TA = 0°C to 70°C)
3.3V
CY22392ZXI-xxx[7]
Z16
16-TSSOP
Industrial (TA = –40°C to 85°C)
3.3V
CY22392ZXI-xxxT[7]
Z16
16-TSSOP – Tape and Reel
Industrial (TA = –40°C to 85°C)
3.3V
Note
7. The CY22392ZC-xxx, CY22392ZI-xxx, CY22392ZXC-xxx, and CY22392ZXI-xxx are factory programmed configurations. Factory programming is available for
high-volume design opportunities of 100 Ku/year or more in production. For more details, contact your local Cypress FAE or Cypress Sales Representative.
8. Not recommended for new designs.
Document #: 38-07013 Rev. *E
Page 7 of 9
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CY22392
Package Diagram
Figure 6. 16-lead TSSOP 4.40 MM Body Z16.173
PIN 1 ID
DIMENSIONS IN MM[INCHES] MIN.
MAX.
1
REFERENCE JEDEC MO-153
6.25[0.246]
6.50[0.256]
PACKAGE WEIGHT 0.05 gms
PART #
4.30[0.169]
4.50[0.177]
Z16.173
STANDARD PKG.
ZZ16.173 LEAD FREE PKG.
16
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]
4.90[0.193]
5.10[0.200]
0.05[0.002]
0.15[0.006]
SEATING
PLANE
0.50[0.020]
0.70[0.027]
0.09[[0.003]
0.20[0.008]
51-85091-*A
Document #: 38-07013 Rev. *E
Page 8 of 9
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CY22392
Document History Page
Document Title: CY22392 Three PLL General Purpose Flash Programmable Clock Generator
Document Number: 38-07013
REV.
ECN
Orig. of
Change
Submission
Date
Description of Change
**
106738
TLG
07/03/01
New Data Sheet
*A
108515
JWK
08/23/01
Updates based on characterization results. Removed “Preliminary” heading.
Added paragraph on Junction Temperature limitations and part configurations.
Removed soldering temperature rating. Split crystal load into two typical specs
representing digital settings range. Changed t5 max to 300 ns. Changed t7
typical to 1.0 ms.
*B
110052
CKN
12/09/01
Preliminary to Final.
*C
121864
RBI
12/14/02
Power up requirements added to Operating Conditions Information
*D
237811
RGL
See ECN
Added Lead Free Devices
*E
2584052
AESA
10/10/08
Updated template. Added Note “Not recommended for new designs.”
Added part number CY22392FC, CY22392FCT, CY22392ZC-xxxT,
CY22392ZI-xxxT, CY3672-USB, CY3698, CY22392FXCT, CY22392FXIT,
CY22392ZXC-xxxT, and CY22392ZXI-xxxT, in ordering information table.
Removed part number CY22392FI in ordering information table.
Changed Lead-Free to Pb-Free.
Sales, Solutions, and Legal Information
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© Cypress Semiconductor Corporation, 2001-2008. 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
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 international treaty provisions. Cypress hereby grants to licensee a personal, non-exclusive, non-transferable license to copy, 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 licensee product to be used only in conjunction with a Cypress
integrated circuit as specified in the applicable agreement. Any reproduction, modification, translation, compilation, or representation of this Source Code except as specified above is prohibited 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 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 #: 38-07013 Rev. *E
Revised October 10, 2008
Page 9 of 9
CyClocksRT is a trademark of Cypress Semiconductor Corporation. All products and company names mentioned in this document may be the trademarks of their respective holders.
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