Document Outline

General Description
Features
Block Diagram
Pin Assignment
Function Description
Frequency Margin Function Table
Serial Load Operations
Pin Descriptions
Pin Characteristics
OE Control Input Function Table
SEL Control Input Function Table
Mode Control Input Function Table
Serial Mode Function Table
Absolute Maximum Ratings
Power Supply 3.3V DC Characteristics
Power Supply 3.3V/2.5V DC Characteristics
Power Supply 2.5V DC Characteristics
LVCMOS DC Characteristics
LVPECL DC Characteristics
Crystal Characteristics
Input Frequency Characteristics
3.3V AC Characteristics
3.3V/2.5V AC Characteristics
2.5V AC Characteristics
Typical Phase Noise Plot
Parameter Measurement Information
Application Information
- Power Supply Filtering Techniques
- Crystal Input Interface
- Recommendations for Unused Input Pins
- Termination for 3.3V LVPECL Output
- Termination for 2.5V LVPECL Output
Power Considerations
- Power Dissipation
- Junction Temperature
- Thermal Resistance
- Calculations & Equations
- LVPECL Driver Circuit & Termination Diagram
Reliability Information
Transistor Count
Package Outline
Package Dimensions
Ordering Information

843101AGI-312

www.icst.com/products/hiperclocks.html

REV. A NOVEMBER 1, 2005

Integrated
Circuit
Systems, Inc.

ICS843101I-312

EMTO

LOCKS

TM C

RYSTAL

-LVPECL

312.5MH

REQUENCY

ARGINING

YNTHESIZER

PRELIMINARY

ENERAL

ESCRIPTION

The ICS843101I-312 is a low phase-noise
frequency margining synthesizer with fre-
quency margining capability and is a member of
the HiPerClockSTM family of high performance
clock solutions from ICS. In the default mode,

the device nominally generates a 312.5MHz LVPECL output
clock signal from a 25MHz crystal input. There is also a
frequency margining mode available where the device can
be programmed, using the serial interface, to vary the
output frequency up or down from nominal in 2% steps.
The ICS843101I-312 is provided in a 16-pin TSSOP.

EATURES

· One 312.5MHz nominal LVPECL output

· Selectable crystal oscillator interface designed for 25MHz,

18pF parallel resonant crystal or LVCMOS/LVTTL
single-ended input

· Output frequency can be varied in 2% steps ± from

nominal

· VCO range: 560MHz - 690MHz

· RMS phase jitter @ 312.5MHz, using a 25MHz crystal

(1.875MHz - 20MHz): 0.52ps (typical)

· Output supply modes

Core/Output
3.3V/3.3V
3.3V/2.5V
2.5V/2.5V

· -40°C to 85°C ambient operating temperature

· Available in both standard and lead-free RoHS-complaint

packages

HiPerClockSTM

ICS

SSIGNMENT

S_LOAD

S_DATA

S_CLOCK

SEL

O E

CCA

1
2
3
4
5
6
7
8

16
15
14
13
12
11
10

MODE
V

CCO

Q
nQ
V

CLK
XTAL_OUT
XTAL_IN

ICS843101I-312

16-Lead TSSOP

4.4mm x 5.0mm x 0.92mm

package body

G Package

Top View

LOCK

IAGRAM

Phase

Detector

VCO

560 - 690MHz

÷ M

OSC

÷ N

÷ P

Serial Control

Pullup

Pulldown

O E

CLK

SEL

S_CLOCK

S_DATA

S_LOAD

MODE

XTAL_IN

XTAL_OUT

Pulldown

25MHz

The Preliminary Information presented herein represents a product in prototyping or pre-production. The noted characteristics are based on
initial product characterization. Integrated Circuit Systems, Incorporated (ICS) reserves the right to change any circuitry or specifications
without notice.

843101AGI-312

www.icst.com/products/hiperclocks.html

REV. A NOVEMBER 1, 2005

Integrated
Circuit
Systems, Inc.

ICS843101I-312

EMTO

LOCKS

TM C

RYSTAL

-LVPECL

312.5MH

REQUENCY

ARGINING

YNTHESIZER

PRELIMINARY

UNCTIONAL

ESCRIPTION

The ICS843101I-312 features a fully integrated PLL and
therefore requires no external components for setting the
loop bandwidth. A 25MHz fundamental crystal is used as
the input to the on chip oscillator. The output of the osc-
illator is fed into the pre-divider. In frequency margining
mode, the 25MHz crystal frequency is divided by 2 and
a 12.5MHz reference frequency is applied to the phase
detector. The VCO of the PLL operates over a range of
560MHz to 690MHz. The output of the M divider is also
applied to the phase detector.

The default mode for the ICS843101I-312 is 312.5MHz
output frequency using a 25MHz crystal. The output fre-
quency can be changed by placing the device into the
margining mode using the mode pin and using the serial
interface to program the M feedback divider. Frequency
margining mode operation occurs when the MODE input
is HIGH. The phase detector and the M divider force the
VCO output frequency to be M times the reference fre-
quency by adjusting the VCO control voltage. Note that for

some values of M (either too high or too low), the PLL will
not achieve lock. The output of the VCO is scaled by an
output divider prior to being sent to the LVPECL output
buffer. The divider provides a 50% output duty cycle. The
relationship between the crystal input frequency, the M
divider, the VCO frequency and the output frequency
is provided in Table 1. When changing back from fre-
quency margining mode to nominal mode, the device will
return to the default nominal configuration that will provide
312.5 MHz output frequency.

Serial operation occurs when S_LOAD is HIGH. Serial
data can be loaded in either the default mode or the fre-
quency margining mode. The 6-bit shift register is loaded
by sampling the S_DATA bits with the rising edge of
S_CLOCK. After shifting in the 6-bit M divider value,
S_LOAD is transitioned from HIGH to LOW which latches
the contents of the shift-register into the M divider control
register. When S_LOAD is LOW, any transitions of
S_CLOCK or S_DATA are ignored.

ABLE

1. F

REQUENCY

ARGIN

UNCTION

ABLE

IGURE

1. S

ERIAL

OAD

PERATIONS

Time

ERIAL

OADING

S_CLOCK

S_DATA

S_LOAD

)

(

)

(

)

(

)

(

)

(

)

(

)

(

)

(

843101AGI-312

www.icst.com/products/hiperclocks.html

REV. A NOVEMBER 1, 2005

Integrated
Circuit
Systems, Inc.

ICS843101I-312

EMTO

LOCKS

TM C

RYSTAL

-LVPECL

312.5MH

REQUENCY

ARGINING

YNTHESIZER

PRELIMINARY

ABLE

2. P

ESCRIPTIONS

ABLE

3. P

HARACTERISTICS

843101AGI-312

www.icst.com/products/hiperclocks.html

REV. A NOVEMBER 1, 2005

Integrated
Circuit
Systems, Inc.

ICS843101I-312

EMTO

LOCKS

TM C

RYSTAL

-LVPECL

312.5MH

REQUENCY

ARGINING

YNTHESIZER

PRELIMINARY

ABLE

4D. S

ERIAL

ODE

UNCTION

ABLE

4A. OE C

ONTROL

NPUT

UNCTION

ABLE

4B. SEL C

ONTROL

NPUT

UNCTION

ABLE

4C. M

ODE

ONTROL

NPUT

UNCTION

ABLE

843101AGI-312

www.icst.com/products/hiperclocks.html

REV. A NOVEMBER 1, 2005

Integrated
Circuit
Systems, Inc.

ICS843101I-312

EMTO

LOCKS

TM C

RYSTAL

-LVPECL

312.5MH

REQUENCY

ARGINING

YNTHESIZER

PRELIMINARY

ABLE

5A. P

OWER

UPPLY

DC C

HARACTERISTICS

= V

CCA

= V

CCO

= 3.3V±5%, T

= -40°C

85°C

BSOLUTE

AXIMUM

ATINGS

Supply Voltage, V

4.6V

Inputs, V

-0.5V to V

+ 0.5V

Outputs, I

Continuous Current

50mA

Surge Current

100mA

Package Thermal Impedance,

89°C/W (0 lfpm)

Storage Temperature, T

STG

-65°C to 150°C

NOTE: Stresses beyond those listed under Absolute
Maximum Ratings may cause permanent damage to the
device. These ratings are stress specifications only. Functional
operation of product at these conditions or any conditions be-
yond those listed in the

DC Characteristics

AC Character-

istics

is not implied. Exposure to absolute maximum rating

conditions for extended periods may affect product reliability.

ABLE

5B. P

OWER

UPPLY

DC C

HARACTERISTICS

= V

CCA

= 3.3V±5%,V

CCO

= 2.5V±5%, T

= -40°C

85°C

ABLE

5C. P

OWER

UPPLY

DC C

HARACTERISTICS

= V

CCA

= V

CCO

= 2.5V±5%, T

= -40°C

85°C

843101AGI-312

www.icst.com/products/hiperclocks.html

REV. A NOVEMBER 1, 2005

Integrated
Circuit
Systems, Inc.

ICS843101I-312

EMTO

LOCKS

TM C

RYSTAL

-LVPECL

312.5MH

REQUENCY

ARGINING

YNTHESIZER

PRELIMINARY

ABLE

6. C

RYSTAL

HARACTERISTICS

ABLE

5D. LVCMOS / LVTTL DC C

HARACTERISTICS

= -40°C

85°C

ABLE

5E. LVPECL DC C

HARACTERISTICS

= -40°C

85°C

;

)

(

ABLE

7. I

NPUT

REQUENCY

HARACTERISTICS

= -40°C

85°C

/tv

843101AGI-312

www.icst.com/products/hiperclocks.html

REV. A NOVEMBER 1, 2005

Integrated
Circuit
Systems, Inc.

ICS843101I-312

EMTO

LOCKS

TM C

RYSTAL

-LVPECL

312.5MH

REQUENCY

ARGINING

YNTHESIZER

PRELIMINARY

ABLE

8A. AC C

HARACTERISTICS

= V

CCA

= V

CCO

= 3.3V±5%, T

= -40°C

85°C

ABLE

8B. AC C

HARACTERISTICS

= V

CCA

= 3.3V±5%,V

CCO

= 2.5V±5%, T

= -40°C

85°C

ABLE

8C. AC C

HARACTERISTICS

= V

CCA

= V

CCO

= 2.5V±5%, T

= -40°C

85°C

)

(

;

)

(

)

(

;

)

(

)

(

;

)

(

843101AGI-312

www.icst.com/products/hiperclocks.html

REV. A NOVEMBER 1, 2005

Integrated
Circuit
Systems, Inc.

ICS843101I-312

EMTO

LOCKS

TM C

RYSTAL

-LVPECL

312.5MH

REQUENCY

ARGINING

YNTHESIZER

PRELIMINARY

PERIOD

odc =

x 100%

2.5V C

ORE

/2.5V O

UTPUT

OAD

AC T

EST

IRCUIT

3.3V C

ORE

/2.5V O

UTPUT

OAD

AC T

EST

IRCUIT

3.3V C

ORE

/3.3V O

UTPUT

OAD

AC T

EST

IRCUIT

SCOPE

nQx

LVPECL

-1.3V ± 0.165V

RMS P

HASE

ITTER

ARAMETER

EASUREMENT

NFORMATION

Clock
Outputs

20%

80%

20%

SW I N G

CCA

, V

CCO

UTPUT

UTY

YCLE

ULSE

IDTH

ERIOD

Phase Noise Mask

Offset Frequency

Phase Noise Plot

RMS Jitter = Area Under the Masked Phase Noise Plot

Noise P

UTPUT

ISE

ALL

IME

SCOPE

nQx

LVPECL

2.8V±0.04V

-0.5V ± 0.125V

CCA

CCO

SCOPE

nQx

LVPECL

-0.5V ± 0.125V

CCA

, V

CCO

843101AGI-312

www.icst.com/products/hiperclocks.html

REV. A NOVEMBER 1, 2005

Integrated
Circuit
Systems, Inc.

ICS843101I-312

EMTO

LOCKS

TM C

RYSTAL

-LVPECL

312.5MH

REQUENCY

ARGINING

YNTHESIZER

PRELIMINARY

RYSTAL

NPUT

NTERFACE

The ICS843101I-312 has been characterized with 18pF
parallel resonant crystals. The capacitor values shown in

Figure 3

below were determined using a 25MHz, 18pF par-

Figure 3. C

RYSTAL

NPU

t I

NTERFACE

allel resonant crystal and were chosen to minimize the
ppm error.

PPLICATION

NFORMATION

As in any high speed analog circuitry, the power supply pins
are vulnerable to random noise. The ICS843101I-312 provides
separate power supplies to isolate any high switching
noise from the outputs to the internal PLL. V

, V

CCA

, and V

CCO

should be individually connected to the power supply
plane through vias, and bypass capacitors should be
used for each pin. To achieve optimum jitter performance,
power supply isolation is required.

Figure 2

illustrates how

a 10

resistor along with a 10µF and a .01F bypass

capacitor should be connected to each V

CCA

. The 10

resis-

tor can also be replaced by a ferrite bead.

OWER

UPPLY

ILTERING

ECHNIQUES

IGURE

2. P

OWER

UPPLY

ILTERING

CCA

.01

3.3V or 2.5V

.01

27p

18pF Parallel Crystal

27p

XTAL_OUT

XTAL_IN

843101AGI-312

www.icst.com/products/hiperclocks.html

REV. A NOVEMBER 1, 2005

Integrated
Circuit
Systems, Inc.

ICS843101I-312

EMTO

LOCKS

TM C

RYSTAL

-LVPECL

312.5MH

REQUENCY

ARGINING

YNTHESIZER

PRELIMINARY

ERMINATION

FOR

3.3V LVPECL O

UTPUT

- 2V

RTT

= 50

FOUT

FIN

RTT =

((V

+ V

) / (V

2)) 2

3.3V

125

= 50

FOUT

FIN

The clock layout topology shown below is a typical ter-
mination for LVPECL outputs. The two different layouts
mentioned are recommended only as guidelines.

FOUT and nFOUT are low impedance follower outputs
that generate ECL/LVPECL compatible outputs. There-
fore, terminating resistors (DC current path to ground)
or current sources must be used for functionality. These

IGURE

4B. LVPECL O

UTPUT

ERMINATION

IGURE

4A. LVPECL O

UTPUT

ERMINATION

outputs are designed to drive 50

transmission lines.

Matched impedance techniques should be used to maxi-
mize operating frequency and minimize signal distor-
tion.

Figures 4A and 4B

show two different layouts which

are recommended only as guidelines. Other suitable
clock layouts may exist and it would be recommended
that the board designers simulate to guarantee compat-
ibility across all printed circuit and clock component pro-
cess variations.

NPUTS

RYSTAL

NPUT

For applications not requiring the use of the crystal oscillator
input, both XTAL_IN and XTAL_OUT can be left floating.
Though not required, but for additional protection, a 1k

resistor can be tied from XTAL_IN to ground.

CLK I

NPUT

For applications not requiring the use of the test clock, it can
be left floating. Though not required, but for additional
protection, a 1k

resistor can be tied from the CLK input to

ground.

ECOMMENDATIONS

FOR

NUSED

NPUT

INS

LVCMOS C

ONTROL

INS

All control pins have internal pull-ups or pull-downs; additional
resistance is not required but can be added for additional
protection. A 1k

resistor can be used.

843101AGI-312

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REV. A NOVEMBER 1, 2005

Integrated
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Systems, Inc.

ICS843101I-312

EMTO

LOCKS

TM C

RYSTAL

-LVPECL

312.5MH

REQUENCY

ARGINING

YNTHESIZER

PRELIMINARY

ERMINATION

FOR

2.5V LVPECL O

UTPUT

Figure 5A

and

Figure 5B

show examples of termination for

2.5V LVPECL driver. These terminations are equivalent to
terminating 50

to V

- 2V. For V

= 2.5V, the V

- 2V is

very close to ground level. The R3 in Figure 4B can be
eliminated and the termination is shown in

Figure 4C.

IGURE

5C. 2.5V LVPECL T

ERMINATION

XAMPLE

IGURE

5B. 2.5V LVPECL D

RIVER

ERMINATION

XAMPLE

IGURE

5A. 2.5V LVPECL D

RIVER

ERMINATION

XAMPLE

R2
62.5

Zo = 50 Ohm

R1
250

2.5V

2,5V LVPECL
Driv er

R4
62.5

R3
250

Zo = 50 Ohm

2.5V

VCC=2.5V

R1
50

R3
18

Zo = 50 Ohm

2,5V LVPECL
Driv er

VCC=2.5V

2.5V

R2
50

2,5V LVPECL
Driv er

VCC=2.5V

R1
50

R2
50

2.5V

Zo = 50 Ohm

843101AGI-312

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REV. A NOVEMBER 1, 2005

Integrated
Circuit
Systems, Inc.

ICS843101I-312

EMTO

LOCKS

TM C

RYSTAL

-LVPECL

312.5MH

REQUENCY

ARGINING

YNTHESIZER

PRELIMINARY

OWER

ONSIDERATIONS

This section provides information on power dissipation and junction temperature for the ICS843101I-312.
Equations and example calculations are also provided.

1. Power Dissipation.

The total power dissipation for the ICS843101I-312 is the sum of the core power plus the power dissipated in the load(s).
The following is the power dissipation for V

= 3.3V + 5% = 3.465V, which gives worst case results.

NOTE: Please refer to Section 3 for details on calculating power dissipated in the load.

Power (core)

MAX

= V

CC_MAX

* I

EE_MAX

= 3.465V * 92mA = 318.78mW

Power (outputs)

MAX

= 30mW/Loaded Output pair

Total Power

_MAX

(3.465V, with all outputs switching) = 318.78mW + 30mW = 348.78mW

2. Junction Temperature.

Junction temperature, Tj, is the temperature at the junction of the bond wire and bond pad and directly affects the reliability of the
device. The maximum recommended junction temperature for HiPerClockS

devices is 125°C.

The equation for Tj is as follows: Tj =

* Pd_total + T

Tj = Junction Temperature

= Junction-to-Ambient Thermal Resistance

Pd_total = Total Device Power Dissipation (example calculation is in section 1 above)
T

= Ambient Temperature

In order to calculate junction temperature, the appropriate junction-to-ambient thermal resistance

must be used. Assuming a

moderate air flow of 200 linear feet per minute and a multi-layer board, the appropriate value is 81.8°C/W per Table 9 below.

Therefore, Tj for an ambient temperature of 85°C with all outputs switching is:

85°C + 0.349W *81.8°C/W = 113.5°C. This is below the limit of 125°C.

This calculation is only an example. Tj will obviously vary depending on the number of loaded outputs, supply voltage, air flow,
and the type of board (single layer or multi-layer).

by Velocity (Linear Feet per Minute)

200

500

Single-Layer PCB, JEDEC Standard Test Boards

137.1°C/W

118.2°C/W

106.8°C/W

Multi-Layer PCB, JEDEC Standard Test Boards

89.0°C/W

81.8°C/W

78.1°C/W

NOTE: Most modern PCB designs use multi-layered boards. The data in the second row pertains to most designs.

ABLE

9. T

HERMAL

ESISTANCE

FOR

16-

PIN

TSSOP, F

ORCED

ONVECTION

843101AGI-312

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REV. A NOVEMBER 1, 2005

Integrated
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ICS843101I-312

EMTO

LOCKS

TM C

RYSTAL

-LVPECL

312.5MH

REQUENCY

ARGINING

YNTHESIZER

PRELIMINARY

3. Calculations and Equations.

The purpose of this section is to derive the power dissipated into the load.

LVPECL output driver circuit and termination are shown in

Figure 6.

o calculate worst case power dissipation into the load, use the following equations which assume a 50

load, and a termination

voltage of V

CCO

- 2V.

For logic high, V

OUT

= V

OH_MAX

= V

CCO_MAX

 0.9V

CCO_MAX

- V

OH_MAX

) = 0.9V

For logic low, V

OUT

= V

OL_MAX

= V

CCO_MAX

 1.7V

CCO_MAX

- V

OL_MAX

) = 1.7V

Pd_H is power dissipation when the output drives high.
Pd_L is the power dissipation when the output drives low.

Pd_H = [(V

OH_MAX

CCO_MAX

- 2V))/R

] * (V

CCO_MAX

- V

OH_MAX

) = [(2V - (V

CCO_MAX

- V

OH_MAX

))/R

] * (V

CCO_MAX

- V

OH_MAX

) =

[(2V - 0.9V)/50

] * 0.9V = 19.8mW

Pd_L = [(V

OL_MAX

CCO_MAX

- 2V))/R

] * (V

CCO_MAX

- V

OL_MAX

) = [(2V - (V

CCO_MAX

- V

OL_MAX

))/R

] * (V

CCO_MAX

- V

OL_MAX

) =

[(2V - 1.7V)/50

] * 1.7V = 10.2mW

Total Power Dissipation per output pair = Pd_H + Pd_L = 30mW

IGURE

6. LVPECL D

RIVER

IRCUIT

AND

ERMINATION

OUT

CCO

R L

CCO

- 2V

843101AGI-312

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REV. A NOVEMBER 1, 2005

Integrated
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ICS843101I-312

EMTO

LOCKS

TM C

RYSTAL

-LVPECL

312.5MH

REQUENCY

ARGINING

YNTHESIZER

PRELIMINARY

ELIABILITY

NFORMATION

RANSISTOR

OUNT

The transistor count for ICS843101I-312 is: 4093

ABLE

10.

. A

LOW

ABLE

FOR

16 L

EAD

TSSOP

by Velocity (Linear Feet per Minute)

200

500

Single-Layer PCB, JEDEC Standard Test Boards

137.1°C/W

118.2°C/W

106.8°C/W

Multi-Layer PCB, JEDEC Standard Test Boards

89.0°C/W

81.8°C/W

78.1°C/W

NOTE: Most modern PCB designs use multi-layered boards. The data in the second row pertains to most designs.

843101AGI-312

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REV. A NOVEMBER 1, 2005

Integrated
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ICS843101I-312

EMTO

LOCKS

TM C

RYSTAL

-LVPECL

312.5MH

REQUENCY

ARGINING

YNTHESIZER

PRELIMINARY

ACKAGE

UTLINE

- G S

UFFIX

FOR

16 L

EAD

TSSOP

ABLE

11. P

ACKAGE

IMENSIONS

Reference Document: JEDEC Publication 95, MO-153

843101AGI-312

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REV. A NOVEMBER 1, 2005

Integrated
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ICS843101I-312

EMTO

LOCKS

TM C

RYSTAL

-LVPECL

312.5MH

REQUENCY

ARGINING

YNTHESIZER

PRELIMINARY

ABLE

12. O

RDERING

NFORMATION

While the information presented herein has been checked for both accuracy and reliability, Integrated Circuit Systems, Incorporated (ICS) assumes no responsibility for either its use
or for 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 and industrial applications. Any other applications such as those requiring 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.

The aforementioned trademarks, HiPerClockS and FemtoClocks are trademarks of Integrated Circuit Systems, Inc. or its subsidiaries in the United States and/or other countries.

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Document Outline

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