PE83513-00 - Peregrine Semiconductor

PEREGRINE SEMICONDUCTOR CORP.  | http://www.peregrine-semi.com Copyright



Peregrine Semiconductor Corp. 2003

Page 1 of 6

Product Description

Figure 1. Functional Schematic Diagram Figure 2. Package Type

Table 1. Electrical Specifications (ZS = ZL = 50 Ω)

2.85V ≤ VDD ≤ 3.15 V; -55° C ≤ TA ≤ 125° C, unless otherwise specified

Parameter Conditions Minimum Typical Maximum Units

Supply Voltage 2.85 3.0 3.15 V

OUTB Disabled 7 12 mA

Supply Current

OUTB Enabled 14 25 mA

Input Frequency (FIN) DC 1500 MHz

100 MHz ≤ Fin ≤ 1200 MHz

-55°C ≤ TA ≤ 85°C -5 +10 dBm

100 MHz ≤ Fin ≤ 1200 MHz

85°C ≥ TA ≥ 125°C 0 +10 dBm

Input Power (PIN)

1200 MHz < Fin ≤ 1500 MHz

-55°C ≤ TA ≤ 85°C +5 +10 dBm

Output Power DC < Fin ≤ 1500MHz +2 dBm

PRODUCT SPECIFICATION

PE83513

Military Operating Temperature Range

DC - 1500 MHz Low Power

CMOS Divide-by-8 Prescaler

Features

• DC to 1500 MHz operation

• Fixed divide ratio of 8

• Low-power operation: 14mA

typical @ 3.0 V

• Ultra small package: 8-lead

plastic MSOP

The PE83513 is a high-performance static CMOS

prescaler with a fixed divide ratio of 8. Its operating

frequency range is DC to 1500 MHz. The PE83513

operates on a nominal 3 V supply and draws only 14mA.

It is packaged in a small 8-lead plastic MSOP and is

ideal for frequency scaling and clock generation

solutions.

The PE83513 is manufactured in Peregrine’s patented

Ultra-Thin Silicon (UTSi



) CMOS process, offering the

performance of GaAs with the economy and integration

of conventional CMOS.

8-lead MSOP 5.05

4.75

3.05

2.85

PE83513

Product Specification



Peregrine Semiconductor Corp. 2003 File No. 70/0118~02A | UTSi  CMOS RFIC SOLUTIONS

Page 2 of 6

PE83511

GND

N/C

GND

OUT

VDD

CTL

OUTB

Figure 3. Pin Configuration

Table 2. Pin Descriptions

Pin No. Pin

Name Description

1 VDD Power supply pin. Bypassing is required

(eg 1000 pF & 100 pF).

2 IN Input signal pin. Should be coupled with a

capacitor (eg 1000 pF).

3 N/C No connection. This pin should be left

open.

4 GND Ground pin. Ground pattern on the board

should be as wide as possible to reduce

ground impedance.

5 OUTB Inverted divided frequency output. This pin

should be coupled with a capacitor

(eg 1000 pF).

6 CTL Control pin. When grounded OUTB is

enabled.

7 OUT Divided frequency output. This pin should

be coupled with a capacitor (eg 1000

pF).

8 GND Ground Pin.

Table 3. Absolute Maximum Ratings

Symbol Parameter/Conditions Min Max Units

VDD Supply voltage 4.0 V

Pin Input Power 15 dBm

VIN Voltage on input -0.3 VDD

+0.3

TST Storage temperature range -65 150 °C

TOP Operating temperature

range

-55 125 °C

VESD ESD voltage (Human Body

Model, MIL-STD 883)

2000 V

Electrostatic Discharge (ESD) Precautions

When handling this UTSi



device, observe the

same precautions that you would use with other

ESD-sensitive devices. Although this device

contains circuitry to protect it from damage due to

ESD, precautions should be taken to avoid

exceeding the rating specified in Table 3.

Latch-Up Avoidance

Unlike conventional CMOS devices, UTSi



CMOS

devices are immune to latch-up.

Device Functional Considerations

The PE83511 divides an input signal, up to a

frequency of 1500 MHz, by a factor of two thereby

producing an output frequency at half the input

frequency. To work properly at higher frequency,

the input and output signals (pins 2 , 7 & optional

5) must be AC coupled via an external capacitor.

The input may be DC coupled for low frequency

operation with care taken to remain within the

specified DC input range for the device.

The ground pattern on the board should be made

as wide as possible to minimize ground

impedance. See Figure 7 for a layout example.

OUTB Control

Pin 6 controls weather OUTB is enabled or

disabled. Pin 6 has an internal pull-up resistor.

With no connection (floating), OUTB is disabled.

By grounding pin 6, OUTB is enabled. By

enabling OUTB, this part will consume roughly 5

mA more current.

PE83513

Product Specification

PEREGRINE SEMICONDUCTOR CORP.  | http://www.peregrine-semi.com Copyright



Peregrine Semiconductor Corp. 2003

Page 3 of 6

Typical Performance Data: VDD = 3.0V

Figure 4. Input Sensitivity Figure 5. Device Current

Figure 6. Output Power

PE83513

Product Specification



Peregrine Semiconductor Corp. 2003 File No. 70/0118~02A | UTSi  CMOS RFIC SOLUTIONS

Page 4 of 6

VDD

N/C

GND

OUT

CTL

OUT /

1000 pF

J2-7

J4 J5

C10

10 pF

1000pF

J1 C1

1000pF

Figure 7. Evaluation Board Schematic Diagram

Figure 8. Evaluation Board Layout

Evaluation Kit Operation

The PE83513 EK board was designed to ease

customer evaluation of Peregrine’s high

performance divide-by-8 Military Grade Prescaler.

On this board, the device input (pin 2) is connected

via J1 and a 50Ω transmission line. A series

capacitor (C3) provides the necessary DC block for

the device input. It is important to note that the

value of this capacitance will impact the

performance of the device. A value of 1000pF was

found to be optimal for this board layout; other

applications may require a different value.

The device output (pin 7) is connected to connector

J3 through a 50Ω transmission line. A series

capacitor (C1) provides the necessary DC block for

the device output. Note that this capacitor must be

chosen to have low impedance at the desired

output frequency the device. The value of 1000pF

was chosen to provide a wide operating range for

the evaluation board.

The board is constructed of a two-layer FR4

material with a total thickness of 0.031”. The

bottom layer provides ground for the RF

transmission lines. The transmission lines were

designed using a coplanar waveguide above

ground plane model with trace width of 0.030”, trace

gaps of 0.007”, dielectric thickness of 0.028”, metal

thickness of 0.0014” and εr of 4.4. Note that the

predominate mode for these transmission lines is

coplanar waveguide.

J2 provides DC power to the device. Starting from

the lower left pin, the second pin to the right (J2-3)

is connected to the device VDD pin (1). Two

decoupling capacitors (10 pF, 1000 pF) are

included on this trace. It is the responsibility of the

customer to determine proper supply decoupling for

their design application.

Applications Support

If you have a problem with your evaluation kit or if

you have applications questions call (858) 455-0660

and ask for applications support. You may also

Fax: (858) 455-0770

E-Mail: help@peregrine-semi.com

PE83513

Product Specification

PEREGRINE SEMICONDUCTOR CORP.  | http://www.peregrine-semi.com Copyright



Peregrine Semiconductor Corp. 2003

Page 5 of 6

Figure 9. Package Drawing

8 Lead Plastic MSOP

FRONT VIEW

2.95±0.10

0.08 A B C

0.33+0.07

-0.08

0.10 A0.10±0.05

3.00±0.10

0.86±0.08

1.10 MAX

- C -

- A -

0.65BSC

0.51±0.13

2.45±0.10

0.51±0.13

3.00±0.10

.25 A B C

234

- B -

.525BSC

TOP VIEW

567

4.90±0.15

3.00±0.10

SIDE VIEW

2.95±0.10

Table 4. Ordering Information

Order

Code Part Marking Description Package Shipping

Method

83513-01 PE83513 PE83513-08MSOP-50A 8-lead MSOP 50 units / Tube

83513-02 PE83513 PE83513-08MSOP-2000C 8-lead MSOP 2000 units / T&R

83513-00 PE83513-EK PE83513-08MSOP-EK Evaluation Kit 1 / Box

PE83513

Product Specification



Peregrine Semiconductor Corp. 2003 File No. 70/0118~02A | UTSi  CMOS RFIC SOLUTIONS

Page 6 of 6

Sales Offices

United States

Peregrine Semiconductor Corp.

6175 Nancy Ridge Drive

San Diego, CA 92121

Tel 1-858-455-0660

Fax 1-858-455-0770

Japan

Peregrine Semiconductor K.K.

5A-5, 5F Imperial Tower

1-1-1 Uchisiawaicho,

Chiyoda-ku, Tokyo, Japan

100-011

Tel. 011-81-3-3502-5211

Fax. 011-81-3-3502-5213

Europe

Peregrine Semiconductor Europe

Aix-En-Provence Office

Parc Club du Golf, bat 9

13856 Aix-En-Provence Cedex 3

France

Tel 33-0-4-4239-3360

Fax 33-0-4-4239-7227

For a list of representatives in your area, please refer to our Web site at: http://www.peregrine-semi.com

Data Sheet Identification

Advance Information

The product is in a formative or design stage. The data sheet

contains design target specifications for product

development. Specifications and features may change in any

manner without notice.

Preliminary Specification

The data sheet contains preliminary data. Additional data

may be added at a later date. Peregrine reserves the right to

change specifications at any time without notice in order to

supply the best possible product.

Product Specification

The data sheet contains final data. In the event Peregrine

decides to change the specifications, Peregrine will notify

customers of the intended changes by issuing a PCN

(Product Change Notice).

The information in this data sheet is believed to be reliable. However,

Peregrine assumes no liability for the use of this information. Use

shall be entirely at the user’s own risk.

No patent rights or licenses to any circuits described in this

data sheet are implied or granted to any third party.

Peregrine’s products are not designed or intended for use in devices

or systems intended for surgical implant, or in other applications

intended to support or sustain life, or in any application in which the

failure of the Peregrine product could create a situation in which

personal injury or death might occur. Peregrine assumes no liability

for damages, including consequential or incidental damages, arising

out of the use of its products in such applications.

Peregrine products are protected under one or more of the following

U.S. patents: 6,090,648; 6,057,555; 5,973,382; 5,973,363; 5,930,638;

5,920,233; 5,895,957; 5,883,396; 5,864,162; 5,863,823; 5,861,336;

5,663,570; 5,610,790; 5,600,169; 5,596,205; 5,572,040; 5,492,857;

5,416,043. Other patents are pending.

Peregrine, the Peregrine logotype, Peregrine Semiconductor Corp., and UTSi

are registered trademarks of Peregrine Semiconductor Corporation.