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ICS270 [ICSI]

Triple PLL Field Programmable VCXO Clock Synthesizer; 三重PLL现场可编程VCXO时钟合成器
ICS270
型号: ICS270
厂家: INTEGRATED CIRCUIT SOLUTION INC    INTEGRATED CIRCUIT SOLUTION INC
描述:

Triple PLL Field Programmable VCXO Clock Synthesizer
三重PLL现场可编程VCXO时钟合成器

石英晶振 压控振荡器 时钟
文件: 总8页 (文件大小:163K)
中文:  中文翻译
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PRELIMINARY INFORMATION  
ICS270  
Triple PLL Field Programmable VCXO Clock Synthesizer  
Description  
Features  
Packaged as 20-pin TSSOP  
The ICS270 field programmable VCXO clock  
synthesizer generates up to eight high-quality,  
high-frequency clock outputs including multiple  
reference clocks from a low-frequency crystal input. It  
is designed to replace crystals and crystal oscillators in  
most electronic systems.  
Eight addressable registers  
Replaces multiple crystals and oscillators  
Output frequencies up to 200 MHz at 3.3 V  
Input crystal frequency of 5 to 27 MHz  
Up to eight reference outputs  
TM  
Using ICS’ VersaClock software to configure PLLs  
Up to two sets of four low-skew outputs  
Operating voltages of 3.3 V  
and outputs, the ICS270 contains a One-Time  
Programmable (OTP) ROM for field programmability.  
Programming features include VCXO, eight selectable  
configuration registers and up to two sets of four  
low-skew outputs.  
Controllable output drive levels  
Advanced, low-power CMOS process  
Available in Pb (lead) free packaging  
Using Phase-Locked Loop (PLL) techniques, the  
device runs from a standard fundamental mode,  
inexpensive crystal, or clock. It can replace VCXOs,  
multiple crystals and oscillators, saving board space  
and cost.  
The ICS270 is also available in factory programmed  
custom versions for high-volume applications.  
Block Diagram  
3
VDD  
CLK1  
CLK2  
CLK3  
CLK4  
CLK5  
CLK6  
CLK7  
CLK8  
3
OTP  
PLL1  
PLL2  
S2:S0  
ROM  
with  
PLL  
Divide  
Logic  
and  
Output  
Enable  
Control  
Values  
VIN  
PLL3  
X1  
X2  
Voltage  
Controlled  
Crystal  
Crystal  
Oscillator  
GND  
2
External capacitors  
are required.  
PDTS  
MDS 270 B  
1
Revision 040705  
Integrated Circuit Systems, Inc. 525 Race Street, San Jose, CA 95126 tel (408) 297-1201 www.icst.com  
PRELIMINARY INFORMATION  
ICS270  
Triple PLL Field Programmable VCXO Clock  
Pin Assignment  
1
20  
19  
18  
17  
16  
15  
14  
13  
12  
11  
VIN  
S0  
S2  
2
VDD  
PDTS  
GND  
CLK8  
3
S1  
4
VDD  
5
CLK1  
6
CLK2  
CLK3  
CLK7  
CLK6  
7
8
CLK4  
GND  
CLK5  
VDD  
9
10  
X1  
X2  
20 pin (173 mil) TSSOP  
Pin Descriptions  
Pin  
Number  
Pin  
Name  
Pin  
Type  
Pin Description  
Voltage input to VCXO. Zero to 3.3 V signal which controls the VCXO  
frequency  
1
VIN  
Input  
2
3
S0  
Input  
Input  
Select pin 0. Internal pull-up resistor.  
Select pin 1. Internal pull-up resistor.  
Connect to +3.3 V.  
S1  
4
VDD  
CLK1  
CLK2  
CLK3  
CLK4  
GND  
X1  
Power  
5
Output Output clock 1. Weak internal pull-down when tri-state.  
Output Output clock 2. Weak internal pull-down when tri-state.  
Output Output clock 3. Weak internal pull-down when tri-state.  
Output Output clock 4. Weak internal pull-down when tri-state.  
6
7
8
9
Power  
XI  
Connect to ground.  
10  
11  
12  
13  
14  
15  
16  
17  
Crystal input. Connect this pin to a crystal.  
Crystal Output. Connect this pin to a crystal.  
Connect to +3.3 V.  
X2  
XO  
VDD  
CLK5  
CLK6  
CLK7  
CLK8  
GND  
Power  
Output Output clock 5. Weak internal pull-down when tri-state.  
Output Output clock 6. Weak internal pull-down when tri-state.  
Output Output clock 7. Weak internal pull-down when tri-state.  
Output Output clock 8. Weak internal pull-down when tri-state.  
Power  
Connect to ground.  
Power-down tri-state. Powers down entire chip and tri-states clock outputs  
when low. Internal pull-up resistor.  
18  
PDTS  
Input  
Connect to +3.3 V.  
19  
20  
VDD  
S2  
Power  
Input  
Select pin 2. Internal pull-up resistor.  
MDS 270 B  
2
Revision 040705  
Integrated Circuit Systems, Inc. 525 Race Street, San Jose, CA 95126 tel (408) 297-1201 www.icst.com  
PRELIMINARY INFORMATION  
ICS270  
Triple PLL Field Programmable VCXO Clock  
External Components  
The external crystal must be connected as close to the  
chip as possible and should be on the same side of the  
PCB as the ICS270. There should be no via’s between  
the crystal pins and the X1 and X2 device pins. There  
should be no signal traces underneath or close to the  
crystal. See application note MAN05.  
The ICS270 requires a minimum number of external  
components for proper operation.  
Series Termination Resistor  
Clock output traces over one inch should use series  
termination. To series terminate a 50trace (a  
commonly used trace impedance), place a 33resistor  
in series with the clock line, as close to the clock output  
pin as possible. The nominal impedance of the clock  
output is 20.  
Crystal Tuning Load Capacitors  
The crystal traces should include pads for small fixed  
capacitors, one between X1 and ground, and another  
between X2 and ground. Stuffing of these capacitors  
on the PCB is optional. The need for these capacitors is  
determined at system prototype evaluation, and is  
influenced by the particular crystal used (manufacture  
and frequency) and by PCB layout. The typical required  
capacitor value is 1 to 4 pF.  
Decoupling Capacitors  
As with any high-performance mixed-signal IC, the  
ICS270 must be isolated from system power supply  
noise to perform optimally.  
Decoupling capacitors of 0.01µF must be connected  
between each VDD and the PCB ground plane. For  
optimum device performance, the decoupling capacitor  
should be mounted on the component side of the PCB.  
Avoid the use of vias on the decoupling circuit.  
To determine the need for and value of the crystal  
adjustment capacitors, you will need a PC board of  
your final layout, a frequency counter capable of about  
1 ppm resolution and accuracy, two power supplies,  
and some samples of the crystals which you plan to  
use in production, along with measured initial accuracy  
for each crystal at the specified crystal load  
capacitance, CL.  
Quartz Crystal  
The ICS270 VCXO function consists of the external  
crystal and the integrated VCXO oscillator circuit. To  
assure the best system performance (frequency pull  
range) and reliability, a crystal device with the  
recommended parameters (shown below) must be  
used, and the layout guidelines discussed in the  
following section shown must be followed.  
To determine the value of the crystal capacitors:  
1. Connect VDD of the ICS270 to 3.3 V. Connect pin 1  
of the ICS270 to the second power supply. Adjust the  
voltage on pin 1 to 0V. Measure and record the  
frequency of the CLK output.  
2. Adjust the voltage on pin 1 to 3.3 V. Measure and  
record the frequency of the same output.  
The frequency of oscillation of a quartz crystal is  
determined by its “cut” and by the load capacitors  
connected to it. The ICS270 incorporates on-chip  
variable load capacitors that “pull” (change) the  
frequency of the crystal. The crystal specified for use  
with the ICS270 is designed to have zero frequency  
error when the total of on-chip + stray capacitance is 14  
pF.  
To calculate the centering error:  
(f3.0V ftarget)+(f0Vftarget  
)
Error = 106x  
errorxtal  
----------------------------------------------------------------------  
ftarget  
Recommended Crystal Parameters:  
Initial Accuracy at 25°C  
Temperature Stability  
Aging  
Load Capacitance  
Shunt Capacitance, C0  
C0/C1 Ratio  
20 ppm  
30 ppm  
20 ppm  
14 pf  
7 pF Max  
250 Max  
35Max  
Where:  
= nominal crystal frequency  
f
target  
Equivalent Series Resistance  
MDS 270 B  
3
Revision 040705  
Integrated Circuit Systems, Inc. 525 Race Street, San Jose, CA 95126 tel (408) 297-1201 www.icst.com  
PRELIMINARY INFORMATION  
ICS270  
Triple PLL Field Programmable VCXO Clock  
error  
being measured  
=actual initial accuracy (in ppm) of the crystal  
banks to support widely differing frequency values from  
the same PLL.  
xtal  
If the centering error is less than 25 ppm, no  
adjustment is needed. If the centering error is more  
than 25ppm negative, the PC board has excessive  
stray capacitance and a new PCB layout should be  
considered to reduce stray capacitance. (Alternately,  
the crystal may be re-specified to a higher load  
capacitance. Contact ICS for details.) If the centering  
error is more than 25 ppm positive, add identical fixed  
centering capacitors from each crystal pin to ground.  
The value for each of these caps (in pF) is given by:  
External Capacitor = 2 x (centering error)/(trim  
sensitivity)  
Each output frequency can be represented as:  
M
N
----  
OutputFreq = REFFreq ⋅  
Output Drive Control  
The ICS270 has two output drive settings. Low drive  
should be selected when outputs are less than 100  
MHz. High drive should be selected when outputs are  
greater than 100 MHz. (Consult the AC Electrical  
Characteristics for output rise and fall times for each  
drive option.)  
Trim sensitivity is a parameter which can be supplied by  
your crystal vendor. If you do not know the value,  
assume it is 30 ppm/pF. After any changes, repeat the  
measurement to verify that the remaining error is  
acceptably low (typically less than 25 ppm).  
ICS VersaClock Software  
ICS applies years of PLL optimization experience into a  
user friendly software that accepts the user’s target  
reference clock and output frequencies and generates  
the lowest jitter, lowest power configuration, with only a  
press of a button. The user does not need to have prior  
PLL experience or determine the optimal VCO  
ICS270 Configuration Capabilities  
The architecture of the ICS270 allows the user to easily  
configure the device to a wide range of output  
frequencies, for a given input reference frequency.  
frequency to support multiple output frequencies.  
VersaClock software quickly evaluates accessible VCO  
frequencies with available output divide values and  
provides an easy to understand, bar code rating for the  
target output frequencies. The user may evaluate  
output accuracy, performance trade-off scenarios in  
seconds.  
The frequency multiplier PLL provides a high degree of  
precision. The M/N values (the multiplier/divide values  
available to generate the target VCO frequency) can be  
set within the range of M = 1 to 1024 and N = 1 to  
32,895.  
The ICS270 also provides separate output divide  
values, from 2 through 63, to allow the two output clock  
Absolute Maximum Ratings  
Stresses above the ratings listed below can cause permanent damage to the ICS270. These ratings, which  
are standard values for ICS commercially rated parts, are stress ratings only. Functional operation of the  
device at these or any other conditions above those indicated in the operational sections of the  
specifications is not implied. Exposure to absolute maximum rating conditions for extended periods can  
affect product reliability. Electrical parameters are guaranteed only over the recommended operating  
temperature range.  
Parameter  
Condition  
Min.  
Typ.  
Max.  
7
Units  
Supply Voltage, VDD  
Inputs  
Referenced to GND  
Referenced to GND  
Referenced to GND  
V
V
V
-0.5  
-0.5  
VDD+0.5  
VDD+0.5  
Clock Outputs  
MDS 270 B  
4
Revision 040705  
Integrated Circuit Systems, Inc. 525 Race Street, San Jose, CA 95126 tel (408) 297-1201 www.icst.com  
PRELIMINARY INFORMATION  
ICS270  
Triple PLL Field Programmable VCXO Clock  
Parameter  
Condition  
Min.  
Typ.  
Max.  
150  
Units  
°C  
Storage Temperature  
Soldering Temperature  
Junction Temperature  
-65  
Max 10 seconds  
260  
°C  
125  
°C  
Recommended Operation Conditions  
Parameter  
Min.  
0
Typ.  
Max.  
+70  
Units  
°C  
Ambient Operating Temperature (ICS270PG/PGLF)  
Ambient Operating Temperature (ICS270PGI/PGILF)  
Power Supply Voltage (measured in respect to GND)  
Power Supply Ramp Time  
-40  
+85  
°C  
+3.135  
+3.3  
+3.465  
4
V
ms  
Reference crystal parameters  
Refer to page 3  
DC Electrical Characteristics  
Unless stated otherwise, VDD = 3.3 V ±±%, Ambient Temperature -40 to +85°C  
Parameter  
Symbol  
Conditions  
Min.  
Typ.  
Max. Units  
Operating Voltage  
VDD  
3.135  
3.465  
V
Config. Dependent - See  
VersaClock Estimates  
mA  
TM  
Eight 33.3333 MHz outs,  
PDTS = 1, no load, Note 1  
27  
mA  
Operating Supply Current  
Input High Voltage  
IDD  
PDTS = 0, no load, Note 1  
S2:S0  
500  
µA  
V
Input High Voltage  
V
VDD/2+1  
VDD-0.5  
VDD/2+1  
IH  
Input Low Voltage  
V
S2:S0  
0.4  
0.4  
V
V
V
V
V
V
IL  
Input High Voltage, PDTS  
Input Low Voltage, PDTS  
Input High Voltage  
V
IH  
V
IL  
V
ICLK  
ICLK  
IH  
Input Low Voltage  
V
VDD/2-1  
IL  
Output High Voltage  
(CMOS High)  
V
I
= -4 mA  
VDD-0.4  
2.4  
OH  
OH  
Output High Voltage  
Output Low Voltage  
Short Circuit Current  
V
I
I
= -8 mA (Low Drive);  
= -12 mA (High Drive)  
V
V
OH  
OH  
OH  
V
I
I
= 8 mA (Low Drive);  
= 12 mA (High Drive)  
0.4  
OL  
OL  
OL  
I
Low Drive  
High Drive  
40  
70  
20  
OS  
mA  
Nom. Output Impedance  
Z
O
MDS 270 B  
5
Revision 040705  
Integrated Circuit Systems, Inc. 525 Race Street, San Jose, CA 95126 tel (408) 297-1201 www.icst.com  
PRELIMINARY INFORMATION  
ICS270  
Triple PLL Field Programmable VCXO Clock  
Parameter  
Symbol  
Conditions  
Min.  
Typ.  
190  
220  
4
Max. Units  
Internal Pull-up Resistor  
Internal Pull-down Resistor  
Input Capacitance  
R
S2:S0, PDTS  
kΩ  
kΩ  
pF  
PUS  
R
CLK outputs  
Inputs  
PD  
C
IN  
Note 1: Example with 25 MHz crystal input with eight outputs of 33.3 MHz, no load, and VDD = 3.3 V.  
AC Electrical Characteristics  
Unless stated otherwise, VDD = 3.3 V ±±%, Ambient Temperature -40 to +85° C  
Parameter  
Symbol  
Conditions  
Min.  
5
Typ.  
Max. Units  
Input Frequency  
F
Fundamental crystal  
27  
MHz  
MHz  
IN  
Output Frequency  
Crystal Pullability  
VCXO Gain  
0.314  
100  
200  
F
0V< VIN < 3.3 V, Note 1  
ppm  
P
VIN = VDD/2 + 1 V,  
Note 1  
110  
1.0  
2.0  
ppm/V  
Output Rise/Fall Time  
Output Rise/Fall Time  
Duty Cycle  
t
t
80% to 20%, high drive,  
Note 2  
ns  
ns  
OF  
80% to 20%, low drive,  
Note 2  
OF  
Note 3  
40  
49-51  
4
60  
10  
%
PLL lock-time from  
power-up  
ms  
Power-up time  
PDTS goes high until  
stable CLK output  
0.6  
2
ms  
One Sigma Clock Period Jitter  
Maximum Absolute Jitter  
Configuration Dependent  
50  
ps  
ps  
t
Deviation from Mean,  
+200  
ja  
Configuration Dependent  
Pin-to-Pin Skew  
Low Skew Outputs  
-250  
250  
ps  
Note 1: External crystal device must conform with Pullable Crystal Specifications listed on page 3.  
Note 2: Measured with 15 pF load.  
Note 3: Duty Cycle is configuration dependent. Most configurations are min 45% / max 55%.  
Thermal Characteristics  
Parameter  
Symbol  
Conditions  
Min.  
Typ. Max. Units  
Thermal Resistance Junction to  
Ambient  
θ
θ
θ
Still air  
93  
78  
65  
20  
°C/W  
°C/W  
°C/W  
°C/W  
JA  
JA  
JA  
JC  
1 m/s air flow  
3 m/s air flow  
Thermal Resistance Junction to Case  
θ
MDS 270 B  
6
Revision 040705  
Integrated Circuit Systems, Inc. 525 Race Street, San Jose, CA 95126 tel (408) 297-1201 www.icst.com  
PRELIMINARY INFORMATION  
ICS270  
Triple PLL Field Programmable VCXO Clock  
Marking Diagrams  
Marking Diagrams (Pb free)  
20  
11  
20  
11  
270PG  
######  
YYWW  
270PGL  
######  
YYWW  
10  
1
10  
1
20  
11  
20  
11  
270PGI  
######  
YYWW  
270PGIL  
######  
YYWW  
10  
1
10  
1
Notes:  
1. ###### is the lot number.  
2. YYWW is the last two digits of the year and week that the part was assembled.  
3. “I” denotes industrial temperature range (if applicable).  
4. “Ldenotes Pb (lead) free package.  
5. Bottom marking: country of origin.  
MDS 270 B  
7
Revision 040705  
Integrated Circuit Systems, Inc. 525 Race Street, San Jose, CA 95126 tel (408) 297-1201 www.icst.com  
PRELIMINARY INFORMATION  
ICS270  
Triple PLL Field Programmable VCXO Clock  
Package Outline and Package Dimensions (20-pin TSSOP, 173 Mil. Body)  
Package dimensions are kept current with JEDEC Publication No. 95  
24  
Millimeters  
Inches  
Symbol  
Min  
Max  
1.20  
0.15  
1.05  
0.30  
0.20  
6.60  
Min  
Max  
.047  
A
A1  
A2  
b
E1  
0.05  
0.80  
0.19  
0.09  
6.40  
6.40 BASIC  
4.30 4.50  
0.65 Basic  
0.002  
0.032  
0.007  
0.0035 0.008  
0.252 0.260  
0.252 BASIC  
0.169 0.177  
0.0256 Basic  
0.006  
0.041  
0.012  
E
INDEX  
AREA  
C
D
E
E1  
e
1 2  
D
L
0.45  
0.75  
.018  
.030  
α
0°  
8°  
0°  
8°  
A
A2  
A1  
c
- C -  
e
SEATING  
PLANE  
b
L
.10 (.004)  
C
Ordering Information  
Part / Order Number  
Marking  
Shipping Packaging  
Package  
Temperature  
0 to +70°C  
ICS270PG  
Tubes  
Tubes  
Tubes  
Tubes  
20-pin TSSOP  
20-pin TSSOP  
20-pin TSSOP  
20-pin TSSOP  
See page 7  
ICS270PGI  
ICS270PGLF  
ICS270PGILF  
-40 to +85°C  
0 to +70°C  
-40 to +85°C  
Parts that are ordered with a "LF" suffix to the part number are the Pb-Free configuration and are RoHS compliant.  
While the information presented herein has been checked for both accuracy and reliability, Integrated Circuit Systems (ICS)  
assumes no responsibility for either its use or for the infringement of any patents or other rights of third parties, which would  
result from its use. No other circuits, patents, or licenses are implied. This product is intended for use in normal commercial  
applications. Any other applications such as those requiring extended temperature range, high reliability, or other extraordinary  
environmental requirements are not recommended without additional processing by ICS. ICS reserves the right to change any  
circuitry or specifications without notice. ICS does not authorize or warrant any ICS product for use in life support devices or  
critical medical instruments.  
TM  
VersaClock  
is a trademark of Integrated Circuit Systems, Inc. All rights reserved.  
MDS 270 B  
8
Revision 040705  
Integrated Circuit Systems, Inc. 525 Race Street, San Jose, CA 95126 tel (408) 297-1201 www.icst.com  

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