IDT5T93GL16NLI datasheet, PDF - EEWORLD Datasheet

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IDT5T93GL16NLI: DescriptionLow Skew Clock Driver, 5T Series, 16 True Output(s), 0 Inverted Output(s), PQCC52, PLASTIC, QFN-52; Categorylogic logic; File Size121KB，16 Pages; ManufacturerIDT (Integrated Device Technology)

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IDT5T93GL16NLI Overview

Low Skew Clock Driver, 5T Series, 16 True Output(s), 0 Inverted Output(s), PQCC52, PLASTIC, QFN-52

IDT5T93GL16NLI Parametric

Parameter Name	Attribute value
Is it lead-free?	Lead free
Is it Rohs certified?	incompatible
Maker	IDT (Integrated Device Technology)
Parts packaging code	QFN
package instruction	HVQCCN, LCC52,.31SQ,20
Contacts	52
Reach Compliance Code	not_compliant
series	5T
Input adjustment	DIFFERENTIAL MUX
JESD-30 code	S-PQCC-N52
JESD-609 code	e0
length	8 mm
Logic integrated circuit type	LOW SKEW CLOCK DRIVER
Humidity sensitivity level	3
Number of functions	1
Number of inverted outputs
Number of terminals	52
Actual output times	16
Maximum operating temperature	85 °C
Minimum operating temperature	-40 °C
Package body material	PLASTIC/EPOXY
encapsulated code	HVQCCN
Encapsulate equivalent code	LCC52,.31SQ,20
Package shape	SQUARE
Package form	CHIP CARRIER, HEAT SINK/SLUG, VERY THIN PROFILE
Peak Reflow Temperature (Celsius)	240
power supply	2.5 V
Prop。Delay @ Nom-Sup	2 ns
propagation delay (tpd)	2 ns
Certification status	Not Qualified
Same Edge Skew-Max（tskwd）	0.025 ns
Maximum seat height	1 mm
Maximum supply voltage (Vsup)	2.7 V
Minimum supply voltage (Vsup)	2.3 V
Nominal supply voltage (Vsup)	2.5 V
surface mount	YES
Temperature level	INDUSTRIAL
Terminal surface	Tin/Lead (Sn85Pb15)
Terminal form	NO LEAD
Terminal pitch	0.5 mm
Terminal location	QUAD
Maximum time at peak reflow temperature	20
width	8 mm
minfmax	650 MHz

IDT5T93GL16NLI Preview

IDT5T93GL16

2.5V LVDS 1:16 GLITCHLESS CLOCK BUFFER TERABUFFER II

INDUSTRIAL TEMPERATURE RANGE

2.5V LVDS 1:16

GLITCHLESS CLOCK BUFFER

TERABUFFER™ II

FEATURES:

•

IDT5T93GL16

DESCRIPTION:

Guaranteed Low Skew < 25ps (max)

Very low duty cycle distortion < 100ps (max)

High speed propagation delay < 2ns (max)

Up to 650MHz operation

Glitchless input clock switching

Selectable inputs

Hot insertable and over-voltage tolerant inputs

3.3V / 2.5V LVTTL, HSTL, eHSTL, LVEPECL (2.5V), LVPECL (3.3V),

CML, or LVDS input interface

Selectable differential inputs to sixteen LVDS outputs

Power-down mode

2.5V V

DD

Available in TQFP and VFQFPN packages

APPLICATIONS:

• Clock distribution

The IDT5T93GL16 2.5V differential clock buffer is a user-selectable differ-

ential input to sixteen LVDS outputs . The fanout from a differential input to sixteen

LVDS outputs reduces loading on the preceding driver and provides an efficient

clock distribution network. The IDT5T93GL16 can act as a translator from a

differential HSTL, eHSTL, LVEPECL (2.5V), LVPECL (3.3V), CML, or LVDS

input to LVDS outputs. A single-ended 3.3V / 2.5V LVTTL input can also be

used to translate to LVDS outputs. The redundant input capability allows for a

glitchless change-over from a primary clock source to a secondary clock

source. Selectable inputs are controlled by SEL. During the switchover, the

output will disable low for up to three clock cycles of the previously-selected input

clock. The outputs will remain low for up to three clock cycles of the newly-

selected clock, after which the outputs will start from the newly-selected input.

A FSEL pin has been implemented to control the switchover in cases where a

clock source is absent or is driven to DC levels below the minimum specifications.

The IDT5T93GL16 outputs can be asynchronously enabled/disabled.

When disabled, the outputs will drive to the value selected by the GL pin. Multiple

power and grounds reduce noise.

FUNCTIONAL BLOCK DIAGRAM

GL

G1

OUTPUT

CONTROL

Q1

OUTPUT

CONTROL

Q2

PD

OUTPUT

CONTROL

Q3

OUTPUT

CONTROL

Q4

OUTPUT

CONTROL

A1

Q5

1

OUTPUT

CONTROL

Q6

A2

0

OUTPUT

CONTROL

Q7

SEL

FSEL

G2

OUTPUT

CONTROL

Q8

OUTPUT

CONTROL

Q9

OUTPUT

CONTROL

Q10

OUTPUT

CONTROL

Q11

OUTPUT

CONTROL

Q12

OUTPUT

CONTROL

Q13

OUTPUT

CONTROL

Q14

OUTPUT

CONTROL

Q15

The IDT logo is a registered trademark of Integrated Device Technology, Inc.

INDUSTRIAL TEMPERATURE RANGE

1

OUTPUT

CONTROL

Q16

OCTOBER 2003

DSC-6185/13

IDT5T93GL16

2.5V LVDS 1:16 GLITCHLESS CLOCK BUFFER TERABUFFER II

INDUSTRIAL TEMPERATURE RANGE

PIN CONFIGURATIONS

FSEL

SEL

V

DD

V

DD

Q

16

Q

16

Q

15

Q

15

Q

14

Q

14

Q

13

Q

13

52 51 50 49 48 47 46 45 44 43 42 41 40

G

1

V

DD

Q

1

Q

1

Q

2

Q

2

Q

3

Q

3

Q

4

Q

4

V

DD

A

1

A

1

2

3

4

5

6

7

8

9

10

11

12

13

GND

PD

39

38

37

36

35

34

33

32

31

30

29

28

27

G

2

V

DD

Q

12

Q

12

Q

11

Q

11

Q

10

Q

10

Q

9

Q

9

V

DD

A

2

A

2

14 15 16 17 18 19 20 21 22 23 24 25 26

GND

V

DD

VFQFPN

TOP VIEW

2

V

DD

NC

GL

Q

5

Q

5

Q

6

Q

6

Q

7

Q

7

Q

8

Q

8

IDT5T93GL16

2.5V LVDS 1:16 GLITCHLESS CLOCK BUFFER TERABUFFER II

INDUSTRIAL TEMPERATURE RANGE

PIN CONFIGURATIONS (CONTINUED)

GND

V

DD

FSEL

SEL

GND

V

DD

V

DD

Q

16

Q

16

Q

15

Q

15

Q

14

Q

14

Q

13

Q

13

64 63 62 61 60 59 58 57 56 55 54 53 52 51 50 49

G

1

GND

V

DD

Q

1

Q

1

Q

2

Q

2

Q

3

Q

3

Q

4

Q

4

V

DD

A

1

A

1

GND

1

2

3

4

5

6

7

8

9

10

11

12

13

14

15

16

17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32

48

47

46

45

44

43

42

41

40

39

38

37

36

35

34

33

G

2

GND

V

DD

Q

12

Q

12

Q

11

Q

11

Q

10

Q

10

Q

9

Q

9

V

DD

A

2

A

2

GND

PD

V

DD

TQFP

(1)

TOP VIEW

NOTE:

1. 1m/s of airflow is required for TQFP in order to sustain normal operation.

3

GND

V

DD

V

DD

GL

Q

5

Q

5

Q

6

Q

6

Q

7

Q

7

Q

8

Q

8

NC

IDT5T93GL16

2.5V LVDS 1:16 GLITCHLESS CLOCK BUFFER TERABUFFER II

INDUSTRIAL TEMPERATURE RANGE

ABSOLUTE MAXIMUM RATINGS

(1)

Symbol

V

DD

V

I

V

O

T

STG

T

J

Input Voltage

Output Voltage

(2)

Storage Temperature

Junction Temperature

Description

Power Supply Voltage

Max

–0.5 to +3.6

–0.5 to V

DD

+0.5

–65 to +150

150

Unit

V

°C

CAPACITANCE

(1)

(T

A

= +25°C, F = 1.0MHz)

Symbol

C

IN

Parameter

Input Capacitance

Min

Typ.

Max.

3

Unit

pF

—

NOTE:

1. This parameter is measured at characterization but not tested

NOTES:

1. Stresses greater than those listed under ABSOLUTE MAXIMUM RATINGS may cause

permanent damage to the device. This is a stress rating only and functional operation

of the device at these or any other conditions above those indicated in the operational

sections of this specification is not implied. Exposure to absolute maximum rating

conditions for extended periods may affect reliability.

2. Not to exceed 3.6V.

RECOMMENDED OPERATING RANGE

Symbol

T

A

V

DD

Description

Ambient Operating Temperature

Internal Power Supply Voltage

Min.

–40

2.3

Typ.

+25

2.5

Max.

+85

2.7

Unit

°C

V

PIN DESCRIPTION

Symbol

A

[1:2]

A

[1:2]

I/O

I

Type

Adjustable

(1,4)

Adjustable

(1,4)

Description

Clock input. A

[1:2]

is the "true" side of the differential clock input.

Complementary clock inputs.

A

[1:2]

is the complementary side of A

[1:2].

For LVTTL single-ended operation,

A

[1:2]

should be set to the

desired toggle voltage for A

[1:2]

:

3.3V LVTTL V

REF

= 1650mV

2.5V LVTTL V

REF

= 1250mV

Gate control for differential outputs Q

1

and

Q

1

through Q

8

and

Q

8

. When

G

1

is LOW, the differential

outputs are active. When

G

1

is HIGH, the differential outputs are asynchronously driven to the level designated by GL

(2)

.

Gate control for differential outputs Q

9

and

Q

9

through Q

16

and

Q

16

. When

G

2

is LOW, the differential outputs are active. When

G

2

is

HIGH, the differential outputs are asynchronously driven to the level designated by GL

(2)

.

Specifies output disable level. If HIGH, "true" outputs disable HIGH and "complementary" outputs disable LOW. If LOW, "true"

outputs disable LOW and "complementary" outputs disable HIGH.

Clock outputs

Complementary clock outputs

Reference clock select. When LOW, selects A

2

and

A

2

. When HIGH, selects A

1

and

A

1

.

Power-down control. Shuts off entire chip. If LOW, the device goes into low power mode. Inputs and outputs are disabled. Both

"true" and "complementary" outputs will pull to V

DD

. Set HIGH for normal operation.

(3)

Forces selection of clock input. If HIGH, FSEL forces select to the input designated by SEL. Set LOW for normal operation.

Power supply for the device core and inputs

Ground

G

1

G

2

GL

Qn

SEL

PD

FSEL

V

DD

GND

I

O

I

LVTTL

LVDS

LVTTL

PWR

NOTES:

1. Inputs are capable of translating the following interface standards:

Single-ended 3.3V and 2.5V LVTTL levels

Differential HSTL and eHSTL levels

Differential LVEPECL (2.5V) and LVPECL (3.3V) levels

Differential LVDS levels

Differential CML levels

2. Because the gate controls are asynchronous, runt pulses are possible. It is the user's responsibility to either time the gate control signals to minimize the possibility of runt

pulses or be able to tolerate them in down stream circuitry.

3. It is recommended that the outputs be disabled before entering power-down mode. It is also recommended that the outputs remain disabled until the device completes power-

up after asserting

PD.

4. The user must take precautions with any differential input interface standard being used in order to prevent instability when there is no input signal.

4

IDT5T93GL16

2.5V LVDS 1:16 GLITCHLESS CLOCK BUFFER TERABUFFER II

INDUSTRIAL TEMPERATURE RANGE

DC ELECTRICAL CHARACTERISTICS OVER RECOMMENDED OPERATING

RANGE FOR LVTTL

(1)

Symbol

Parameter

Input Characteristics

I

IH

Input HIGH Current

I

IL

Input LOW Current

V

IK

Clamp Diode Voltage

V

IN

DC Input Voltage

V

IH

DC Input HIGH

V

IL

DC Input LOW

V

THI

DC Input Threshold Crossing Voltage

Single-Ended Reference Voltage

(3)

V

REF

Test Conditions

V

DD

= 2.7V

V

DD

= 2.7V

V

DD

= 2.3V, I

IN

= -18mA

Min.

—

- 0.3

1.7

—

Typ.

(2)

—

- 0.7

Max

±5

- 1.2

+3.6

—

0.7

—

Unit

µA

V

3.3V LVTTL

2.5V LVTTL

V

DD

/2

1.65

1.25

NOTES:

1. See RECOMMENDED OPERATING RANGE table.

2. Typical values are at V

DD

= 2.5V, +25°C ambient.

3. For A

[1:2]

single-ended operation,

A

[1:2]

is tied to a DC reference voltage.

DC ELECTRICAL CHARACTERISTICS OVER RECOMMENDED OPERATING

RANGE FOR DIFFERENTIAL INPUTS

(1)

Symbol

Parameter

Input Characteristics

I

IH

Input HIGH Current

I

IL

Input LOW Current

V

IK

Clamp Diode Voltage

V

IN

DC Input Voltage

V

DIF

DC Differential Voltage

(2)

DC Common Mode Input Voltage

(3)

V

CM

Test Conditions

V

DD

= 2.7V

V

DD

= 2.7V

V

DD

= 2.3V, I

IN

= -18mA

Min.

—

- 0.3

0.1

0.05

Typ.

(4)

—

- 0.7

Max

±5

- 1.2

+3.6

—

V

DD

Unit

µA

V

NOTES:

1. See RECOMMENDED OPERATING RANGE table.

2. V

DIF

specifies the minimum input differential voltage (V

TR

- V

CP

) required for switching where V

TR

is the "true" input level and V

CP

is the "complement" input level. The DC differential

voltage must be maintained to guarantee retaining the existing HIGH or LOW input. The AC differential voltage must be achieved to guarantee switching to a new state.

3. V

CM

specifies the maximum allowable range of (V

TR

+ V

CP

) /2.

4. Typical values are at V

DD

= 2.5V, +25°C ambient.

DC ELECTRICAL CHARACTERISTICS OVER RECOMMENDED OPERATING

RANGE FOR LVDS

(1)

Symbol

Parameter

Output Characteristics

V

OT

(+)

Differential Output Voltage for the True Binary State

V

OT

(-)

Differential Output Voltage for the False Binary State

∆V

OT

Change in V

OT

Between Complementary Output States

V

OS

Output Common Mode Voltage (Offset Voltage)

∆V

OS

Change in V

OS

Between Complementary Output States

I

OS

Outputs Short Circuit Current

I

OSD

Differential Outputs Short Circuit Current

NOTES:

1. See RECOMMENDED OPERATING RANGE table.

2. Typical values are at V

DD

= 2.5V, +25°C ambient.

Test Conditions

Min.

247

—

1.125

—

Typ.

(2)

—

1.2

—

12

6

Max

454

50

1.375

50

24

12

Unit

mV

V

mV

mA

V

OUT

+ and V

OUT

- = 0V

V

OUT

+ = V

OUT

-

5

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IDT5T93GL16NLI Related Products

	IDT5T93GL16NLI	IDT5T93GL16TFI
Description	Low Skew Clock Driver, 5T Series, 16 True Output(s), 0 Inverted Output(s), PQCC52, PLASTIC, QFN-52	Low Skew Clock Driver, 16 True Output(s), 0 Inverted Output(s), PQFP64, TQFP-64
Is it Rohs certified?	incompatible	incompatible
Maker	IDT (Integrated Device Technology)	IDT (Integrated Device Technology)
Parts packaging code	QFN	QFP
package instruction	HVQCCN, LCC52,.31SQ,20	LFQFP, QFP64,.47SQ,20
Contacts	52	64
Reach Compliance Code	not_compliant	not_compliant
Input adjustment	DIFFERENTIAL MUX	DIFFERENTIAL MUX
JESD-30 code	S-PQCC-N52	S-PQFP-G64
JESD-609 code	e0	e0
length	8 mm	10 mm
Logic integrated circuit type	LOW SKEW CLOCK DRIVER	LOW SKEW CLOCK DRIVER
Humidity sensitivity level	3	3
Number of functions	1	1
Number of terminals	52	64
Actual output times	16	16
Maximum operating temperature	85 °C	85 °C
Minimum operating temperature	-40 °C	-40 °C
Package body material	PLASTIC/EPOXY	PLASTIC/EPOXY
encapsulated code	HVQCCN	LFQFP
Encapsulate equivalent code	LCC52,.31SQ,20	QFP64,.47SQ,20
Package shape	SQUARE	SQUARE
Package form	CHIP CARRIER, HEAT SINK/SLUG, VERY THIN PROFILE	FLATPACK, LOW PROFILE, FINE PITCH
power supply	2.5 V	2.5 V
Prop。Delay @ Nom-Sup	2 ns	2 ns
propagation delay (tpd)	2 ns	2 ns
Certification status	Not Qualified	Not Qualified
Same Edge Skew-Max（tskwd）	0.025 ns	0.025 ns
Maximum seat height	1 mm	1.6 mm
Maximum supply voltage (Vsup)	2.7 V	2.7 V
Minimum supply voltage (Vsup)	2.3 V	2.3 V
Nominal supply voltage (Vsup)	2.5 V	2.5 V
surface mount	YES	YES
Temperature level	INDUSTRIAL	INDUSTRIAL
Terminal surface	Tin/Lead (Sn85Pb15)	Tin/Lead (Sn85Pb15)
Terminal form	NO LEAD	GULL WING
Terminal pitch	0.5 mm	0.5 mm
Terminal location	QUAD	QUAD
width	8 mm	10 mm
minfmax	650 MHz	650 MHz

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