IDT5V9885NLGI8 IDT, Integrated Device Technology Inc, IDT5V9885NLGI8 Datasheet - Page 6

IDT5V9885NLGI8

Manufacturer Part Number

IDT5V9885NLGI8

Description

IC CLK GEN 3.3V EEPROM 28-VFQFPN

Manufacturer

IDT, Integrated Device Technology Inc

Type

Clock Generatorr

Datasheet

1.IDT5V9885NLGI.pdf (37 pages)

Specifications of IDT5V9885NLGI8

Pll

Yes with Bypass

Input

LVCMOS, LVTTL, Crystal

Output

LVCMOS, LVDS, LVPECL, LVTTL

Number Of Circuits

Ratio - Input:output

2:8

Differential - Input:output

No/Yes

Frequency - Max

500MHz

Divider/multiplier

Yes/Yes

Voltage - Supply

3.135 V ~ 3.6 V

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

28-VFQFN, 28-VFQFPN

Frequency-max

500MHz

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Other names

5V9885NLGI8

Available stocks

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Part Number

Manufacturer

Quantity

Price

Company:

BOSTOCK HK LIMITED

Part Number:

IDT5V9885NLGI8

Manufacturer:

IDT, Integrated Device Technology Inc

Quantity:

10 000

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REFERENCE CLOCK INPUT PINS AND

SELECTION

REFIN) can be driven by either an external crystal or a reference clock. The

second clock input (CLKIN) can only be driven from an external reference clock.

Either clock input can be set as a the primary clock. The primary clock

designation is to establish which is the main reference clock to the PLLs. The

non-primary clock is designated as the secondary clock in case the primary clock

goes absent and a backup is needed. The PRIMCLK bit (0x34) determines

which clock input will be the primary clock. When PRIMCLK bit is "0", it will select

XTALIN/REFIN as the primary, and when "1", it will select CLKIN as the primary.

The two external reference clocks can be manually selected using the GIN5/

CLK_SEL pin, except in Manual Frequency Control (MFC) mode 2, or via

programming by hard wiring the CLK_SEL pin and toggling the PRIMCLK bit.

For more details on the MFC modes, refer to the CONFIGURING MULTI-

PURPOSE I/Os section. When CLK_SEL is LOW, the primary clock is selected

and when HIGH, the secondary clock is selected. The SM bits (0x34) must be

set to "0x" for manual switchover which is detailed in SWITCHOVER MODES

section.

Crystal Input (XTALIN/REFIN)

crystals are not suitable. Crystal frequency should be specified for parallel

resonance with 50Ω maximum equivalent series resonance.

internal oscillator inverter drive strength and internal tuning/load capacitor

values correctly to achieve the best clock performance. These values are

programmable through either I

compatibility with crystals from various manufacturers, processes, performances,

and qualities. The internal load capacitors are true parallel-plate capacitors for

ultra-linear performance. Parallel-plate capacitors were chosen to reduce the

frequency shift that occurs when non-linear load capacitance interacts with load,

bias, supply, and temperature changes. External non-linear crystal load

capacitors should not be used for applications that are sensitive to absolute

frequency requirements. The value of the internal load capacitors are determined

by XTALCAP[7:0] bits, (0x07). The load capacitance can be set with a resolution

of 0.125 pF for a total crystal load range of 3.5pF to 35.4pF. Check with the

vendor's crystal load capacitance specification for the exact setting to tune the

internal load capacitor. The following equation governs how the total internal

load capacitance is set.

IDT5V9885

3.3V EEPROM PROGRAMMABLE CLOCK GENERATOR

The 5V9885 supports up to two clock inputs. One of the clock inputs (XTALIN/

The crystal oscillators should be fundamental mode quartz crystals: overtone

When the XTALIN/REFIN pin is driven by a crystal, it is important to set the

PLL0

PLL1

PLL2

GIN5/CLK_SEL

Pre-Divider (D) Values

1 - 255

C or JTAG interface to allow for maximum

Selected Clock Input

Secondary

Primary

Multiplier (M) Values

2 - 8190

1 - 4095

REFIN pin, the input load capacitors may be completely bypassed. This allows

for the input frequency to be up to 200MHz. When using an external reference

clock, the XTALOUT pin must be left floating, XTALCAP must be programmed

to the default value of "0", and crystal drive strength bit, XDRV (0x06), must

be set to the default value of "11".

CLKIN Pin

PRE-SCALER, FEEDBACK-DIVIDER, AND

POST-DIVIDER

which allows the user to generate three unique non-integer-related frequencies.

For output banks OUT2-OUT6, each bank has a 10-bit post-divider. The

following equation governs how the frequency on output banks OUT2-6 is

calculated.

D is the pre-scaler value, P is the total post-divider value, and F

output bank frequency. The value 2 in the denominator is due to the divide-

by-2 on each of the output banks OUT2-6. Note that OUT1 does not have any

type of post-divider. Also, programming any of the dividers may cause glitches

on the outputs.

Pre-Scaler

PLL0, D1 for PLL1, and D2 for PLL2. The pre-scalers divide down the

reference clock with integer values ranging from 1 to 255. To maintain low jitter,

the divided down clock must be higher than 400KHz; it is best to use the smallest

D divider value possible. If D is set to '0x00', then this will power down the PLL

and all the outputs associated with that PLL.

XTAL load cap = 3.5pF + XTALCAP[7:0] * 0.125pF (Eq. 1)

Parameter

When using an external reference clock instead of a crystal on the XTAL/

CLKIN pin is a regular clock input pin, and can be driven up to 400MHz.

Each PLL incorporates an 8-bit pre-scaler and a 12-bit feedback divider

Where F

XTALCAP

OUT

D[7:0] are the bits used to program the pre-scaler for each PLL, D0 for

= F

Programmable Loop Bandwidth

is the reference frequency, M is the total feedback-divider value,

P * 2

* D

( )

Bits

yes

(Eq. 2)

0.125

Step

INDUSTRIAL TEMPERATURE RANGE

Min

Generation Capability

Spread Spectrum

Max

OUT

yes

is the resulting

Units

IDT5V9885NLGI8 IDT, Integrated Device Technology Inc, IDT5V9885NLGI8 Datasheet - Page 6

IDT5V9885NLGI8

Specifications of IDT5V9885NLGI8

Available stocks

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