TA1218F Datasheet, PDF(28/40 Page) Toshiba Semiconductor – TOSHIBA Bipolar Linear Integrated Circuit Silicon Monolithic

English

English German Russian Spanish Italian Polish Chinese Japanese Korean French Portuguese	Language :

TA1218F Datasheet, PDF (28/40 Pages) Toshiba Semiconductor – TOSHIBA Bipolar Linear Integrated Circuit Silicon Monolithic

◁

TA1218N/F

AC Characteristics

Characteristics

Vout1

Input dynamic range

Vout1

Gain

Vout1

Frequency response

Vout1

Crosstalk

Vout2

Input dynamic range

Select Mode

Symbol

Test

Circuit

Min.

Typ.

Max.

Unit

Test Method

VinTV

VinV1

VinV2

Y/VinS1

CinS1

Y/VinS2

CinS2

VDR7V1

ï£§

1.5

2.0

ï£§

Vp-p (1) Apply a 15 kHz

VDR10V1

ï£§

1.5

2.0

ï£§

Vp-p

sine wave to each

input pin.

VDR28V1

ï£§

1.5

2.0

ï£§

Vp-p (2) In each select

VDR12V1

ï£§

1.5

2.0

ï£§

Vp-p

mode, measure an

input amplitude at

VDR14V1

ï£§

1.5

2.0

ï£§

Vp-p

VDR16V1

ï£§

1.5

2.0

ï£§

Vp-p

which the output

waveform on pin

38 (38) begins to

VDR18V1

ï£§

1.5

2.0

ï£§

Vp-p

be distorted.

VinTV

VinV1

VinV2

Y/VinS1

CinS1

Y/VinS2

CinS2

G7V1

G10V1

G28V1

G12V1

G14V1

G16V1

G18V1

ï£§

5.5

6.0

6.5

ï£§

5.5

6.0

6.5

dB (1) Apply a 15 kHz,

ï£§

5.5

6.0

6.5

1.0 Vp-p sine wave

to each input pin.

ï£§

5.5

6.0

6.5

dB (2) In each select

ï£§

5.5

6.0

6.5

ï£§

5.5

6.0

6.5

ï£§

5.5

6.0

6.5

mode, find the gain

between input and

output.

VinTV

VinV1

VinV2

Y/VinS1

CinS1

Y/VinS2

CinS2

F7V1

F10V1

F28V1

F12V1

F14V1

F16V1

F18V1

ï£§

MHz (1) Apply a 1.0 Vp-p

sine wave to each

ï£§

ï£§ MHz

input pin.

ï£§

ï£§ MHz (2) In each select

mode, measure a

ï£§

ï£§ MHz

frequency at which

ï£§

ï£§ MHz

the output

amplitude on pin

ï£§

ï£§ MHz

38 (38) is 3dB

down from the 15

ï£§

ï£§ MHz

kHz applied level.

VinTV

VinV1

VinV2

Y/VinS1

CinS1

Y/VinS2

CinS2

VinTV

VinV1

VinV2

Y/VinS1

CinS1

Y/VinS2

CinS2

CT7V1

CT10V1

ï£§

dB (1) Apply a 3.58 MHz,

ï£§

1.0 Vp-p sine wave

to each input pin.

CT28V1

CT12V1

ï£§

dB (2) In each select

mode, compare

ï£§

signal output from

CT14V1

ï£§

the selected pin

with leakage

CT16V1

ï£§

components from

CT18V1

ï£§

nonselected pins

to find a crosstalk.

VDR7V2

ï£§

1.5

2.0

ï£§

Vp-p (1) Apply a 15 kHz

VDR10V2

ï£§

1.5

2.0

ï£§

Vp-p

sine wave to each

input pin.

VDR28V2

ï£§

1.5

2.0

ï£§

Vp-p (2) In each select

VDR12V2

ï£§

1.5

2.0

ï£§

Vp-p

mode, measure an

input amplitude at

VDR14V2

ï£§

1.5

2.0

ï£§

Vp-p

VDR16V2

ï£§

1.5

2.0

ï£§

Vp-p

which the output

waveform on pin

42 (42) begins to

VDR18V2

ï£§

1.5

2.0

ï£§

Vp-p

be distorted.

2000-09-11 28/40

▷