Text preview for : CXA1163P dolby B.pdf part of Sony Dolby digital



Back to : CXA1163P dolby B.pdf | Home

CXA1100P, CXA1101P/M, CXA1102P/M, CXA1163P/M
Dolby B Type Noise Reduction System For the availability of this product, please contact the sales office.
Description CXA1100, CXA1101, CXA1102 and CXA1163 are ICs including two separate Dolby B type noise reduction processors. Seven devices with four Dolby levels and two types of package are provided for various applications. These devices feature very few external components, which is achieved by integrated filter circuits using integrated thin film capacitors with high capacitance. Features · Minimum number of external components · NR ON/OFF and REC/PB switchs included · Small package (DIP16, SOP16) ~ · Small supply current (--5.5mA, Typ.) · Dual channel processors in one chip Absolute Maximum Ratings (Ta = 25°C) · Supply voltage VCC 17 V · Operating temperature Topr ­30 to +85 °C · Storage temperature Tstg ­55 to +150 °C · Allowable power dissipation PD DIP16 (A1100P/A1101P/A1102P/A1163P)900 mW SOP16 (A1101M/A1102M/A1163M) 500 mW Note 1) These ICs are available only to the licensees of Dolby Laboratories Licensing Corporation from whom licensing and application information may be obtaind. Note 2) "Dolby" and double D symbols are trade marks of Dolby Laboratories Licensing Corporation. 16 pin DIP (Plastic) 16 pin SOP (Plastic)

Sony reserves the right to change products and specifications without prior notice. This information does not convey any license by any implication or otherwise under any patents or other right. Application circuits shown, if any, are typical examples illustrating the operation of the devices. Sony cannot assume responsibility for any problems arising out of the use of these circuits.

­1­

E90302A13-PP

CXA1100/CXA1101/CXA1102/CXA1163

Pin Description No. Symbol Z (in) VDC

(Ta = 25°C, VCC = 12V (Single supply), No signal) Equivalent Circuit
Vcc

Description

1, 16

REC IN

40k

6.0V

1 16 40k Vcc/2 GND

Recording (Encode) input

2

VCC

--

12.0V
Vcc

Power supply

3, 14

PB IN

40k

6.0V

3 14 40k Vcc/2 GND

Playback (Decode) input

4

VCC/2

1k

6.0V
Vcc 50µ 150µ

Single supply VCC/2 Split supply Ground

Mode control pin for NR ON/OFF 5 ON/OFF -- --
5

"H" NR OFF "L" NR ON
GND Vcc

150

6, 11

LINE OUT

--

6.0V

6 11 150

Line (Decode) output

GND

­2­

CXA1100/CXA1101/CXA1102/CXA1163

No.

Symbol

Z (in)

VDC

Equivalent Circuit
Vcc

Description

4µ 8.2k

7, 10

TC

--

0.3V

7 10 100k

Time constant pin for the level detector

GND Vcc

300

8, 9

REC OUT

--

6.0V

8.2k 8 9 300

Recording (Encode) output

GND Vcc 50µ 150µ

12

REC/PB

--

--

12

Mode control pin for REC/PB (Encode/Decode) "H" B (Decode) "L EC (Encode)

GND Vcc

13

IREF

--

1.2V

13

1.2V

Reference current input pin for the active filters

10µ GND

15

GND

--

0V

Single supply Ground Split supply VEE

­3­

CXA1100/CXA1101/CXA1102/CXA1163

Block Diagram
C12 1µ PB IN REC IN C11 1µ 16 15 14 13

REC/PB C14 4.7µ LINE OUT R1 43k 12 11 10 C13 0.68µ 9 C15 4.7µ REC OUT

ATT1 SC ATT2 ATT3 ATT3 ATT2 SC ATT1 ATT3 DET DET

C21 1µ REC IN PB IN C22 1µ

1

2

3

4 C1 100µ

5

6

7 C23 0.68µ

8

C25 4.7µ REC OUT

LINE OUT C24 4.7µ Vcc ON/OFF ATT: Attenuator SC : Side Chain DET: Detector

Test Circuit

S3

P R OFF R11 5.1k

R12 5.1k C12 1µ C11 1µ R1 43k 13 12 11 C13 C14 0.68µ 4.7µ 10 9

P R

S5-1

C16 4.7µ 1 2 S6-2

DC Level Meter R2 10k CCIR/ARM Filter

Audio SG

16

15

14

1 1 Vcc 2 3 4 5 6 7 8 C23 0.68µ R P 2 C25 4.7µ S5-2 S6-1 C1 C22 100µ C24 C2 1µ 4.7µ 100µ S2 OFF ON R5 R3 R4 12k 510 2k P R S1

OFF

ON S7

A
R21 R 5.1k OFF S4 P C21 1µ R22 5.1k

AC Level Meter Distortion Analyzer

+15V

­4­

CXA1100/CXA1101/CXA1102/CXA1163

Electrical Characteristics

Ta = 25°C, Dolby Level: ­10dBm ( = 245mVrms) at REC OUT VCC = 15V (CXA1100), VCC = 12V (CXA1101), VCC = 9V (CXA1102) VCC = 6V (CXA1163) Test Condition R/P -- NR -- f (Hz) Other Conditions -- Signal Handling 12dB Min. Typ. Max. Unit

Item Operating voltage CXA1100 CXA1101 CXA1102 CXA1163 Supply current CXA1100 CXA1101 CXA1102 CXA1163 LINE OUT level CXA1100 CXA1101 CXA1102 CXA1163 REC IN level PB IN level Encode characteristics (Boost) (1) (2) (3) (4) (5) Signal handling CXA1100 CXA1101 CXA1102 CXA1163

Symbol Vopr

11.5 8.5 6.5 5.0 3.5 3.5 3.5 3.5

-- -- -- -- 5.6 5.5 5.3 5.1 0.0 ­3.0 ­6.0 ­10.0 ­30 ­30

16.0 16.0 16.0 16.0 7.5 7.5 7.5 7.5 1.0 ­2.0 ­5.0 ­9.0 ­28 ­28

V V V V mA mA mA mA dBm dBm dBm dBm dBm dBm

ICC

R

OFF

--

No signal

Vlout

R

OFF

1k ­1.0 ­4.0 ­7.0 ­11.0

Vrin Vpin

R P

OFF OFF

1k 1k

­32 ­32

B-R-1 B-R-2 B-R-3 B-R-4 B-R-5 Vomax

R R R R R R

ON ON ON ON ON OFF

500 2k 5k 10k 10k 1k

­25dB ­25dB ­25dB ­40dB 0dB THD = 1%

1.4 5.5 3.9 9.7 ­1.1 13.5 14.0 14.0 13.0

2.9 7.0 5.4 10.4 0.4 15.3 15.9 15.9 15.0

4.4 8.5 6.9 11.9 1.9 -- -- -- --

dB dB dB dB dB dB dB dB dB

0dBm = 0.775Vrms

­5­

CXA1100/CXA1101/CXA1102/CXA1163

Item Total harmonic distortion 1) NR OFF CXA1100 CXA1101 CXA1102 CXA1163 2) NR ON CXA1100 CXA1101 CXA1102 CXA1163 Input impedance REC IN PB IN Encode S/N ratio Crosstalk REC-PB PB-REC REC ch to ch PB ch to ch REC OUT Offset voltage (NR ON -- OFF) Control voltage "H" Level "L" Level

Symbol

Test Condition R/P NR f (Hz) Other Conditions

Min.

Typ.

Max.

Unit

THD (OFF)

R

OFF

1k

+10dB -- -- -- -- 0.03 0.04 0.05 0.06 0.03 0.04 0.06 0.09 40 40 69 0.2 0.2 0.2 0.2 0.3 0.3 0.3 0.3 57 57 -- % % % % % % % % k k dB

THD (ON)

R

ON

1k

+10dB -- -- -- --

Zrec Zpb SN (CCIR) CT-1 CT-2 CT-3 CT-4 Voff

-- -- R

-- -- ON

1k 1k -- Rg = 5k (CCIR/ARM) 0dB 0dB 0dB 0dB

28 28 65

P R R P R

OFF OFF OFF OFF ON

1k 1k 1k 1k --

-- -- -- -- ­40

­82 ­81 ­70 ­70 0

­65 ­60 ­60 ­60 40

dB dB dB dB mV

VC-H VC-L

-- --

-- --

-- --

2.5 0

-- --

VCC 0.5

V V

0dB means the level which provides the Dolby level at the recording output in the noise reduction off mode.

­6­

CXA1100/CXA1101/CXA1102/CXA1163

Example of Representative Characteristics
Quiescent Current vs. Supply Voltage Supply Current vs. Input Voltage (CXA1101)
Encode Mode 0dB = Dolby Level

6.0

6.8

Icc -- Quiescent current [mA]

5.6 5.2 4.8 NR ON 4.4 4.0 3.6 4 6 8 10 12 14 16 NR OFF

Icc -- Supply current [mA]

6.4 6.0 5.6 NR OFF 1kHz, 10kHz 5.2 4.8 4.4 ­12 NR ON 10kHz NR ON 1kHz ­8 ­4 0 4 8 12

Vcc -- Supply voltage [V]

Input level [dB]

Encode Characteristics
VCC = 12V 12 ­50dB 10 12 10

Temperature Characteristics
VCC = 12V Ta = ­25°C Ta = 25°C Ta = 75°C ­40dB

Encode boost [dB]

8 6 4 2 0 200 500 1k 2k

Encode boost [dB]

­40dB ­30dB

8 6 4 2 0

­30dB

­20dB ­10dB 0dB 5k 10k 20k

­20dB ­10dB 0dB 5k 10k 20k

200

500

1k

2k

Frequency [Hz]

Frequency [Hz]

Signal Handling
Encode Mode 20 NR OFF f = 1kHz THD = 1% 18 16 14 12 10 8 4 6 8 10 12 14 16 0 1 A1163 A1102 A1101 A1100

Load Characteristics (CXA1101)
Encode Mode 14 VCC = 12V THD = 1% 12 10 8 REC OUT 6 4 2 LINE OUT

Maximum output level [dBm]

Signal handling [dB]

2

3

4

5

6

7

Vcc -- Supply voltage [V]

RL -- Load resistance [k]

­7­

CXA1100/CXA1101/CXA1102/CXA1163

NR off Tot al Harrmonic Dist ort ion-1 (CX A1101)
1.0 Encode Mode VCC = 12V 0dB = Dolby Level 1.0

NR onTot al Harrmonic Dist ort ion-1 (CX A1101)
Encode Mode VCC = 12V 0dB = Dolby Level

Total Harmonic Disttortion [%]

Total Harmonic Disttortion [%]

0.5

0.5

0.2 0.1 0.05

0.2 0.1 0.05

0.02 0.01 ­8 ­4 0 4 8 f = 100Hz f = 1kHz f = 10kHz 12 16

0.02 0.01 ­8 ­4 0 4 8 Output Level [dB] f = 100Hz f = 1kHz f = 10kHz 12 16

Output Level [dB]

NR off Tot al Harrmonic Dist ort ion-2 (CX A1100)
1.0 0.5 Encode Mode 0dB = Dolby Level f = 1kHz 1.0

NR onTot al Harrmonic Dist ort ion-2 (CX A1100)
Encode Mode 0dB = Dolby Level f = 1kHz

Total Harmonic Disttortion [%]

Total Harmonic Disttortion [%]

0.5

0.2 0.1 0.05

0.2 0.1 0.05

0.02 0.01 ­8 ­4 0 4 8 VCC = 15V VCC = 11.5V 12 16

0.02 0.01 ­8 ­4 0 4 8 Output Level [dB] VCC = 15V VCC = 11.5V 12 16

Output Level [dB]

NR off Tot al Harrmonic Dist ort ion-3 (CX A1101)
1.0 Encode Mode 0dB = Dolby Level f = 1kHz 1.0

NR onTot al Harrmonic Dist ort ion-3 (CX A1101)
Encode Mode 0dB = Dolby Level f = 1kHz

Total Harmonic Disttortion [%]

0.5

Total Harmonic Disttortion [%]
VCC = 15V VCC = 12V VCC = 8.5V

0.5

0.2 0.1 0.05

0.2 0.1 0.05

0.02 0.01 ­8 ­4 0 4 8

0.02 0.01 ­8 ­4 0 4 8 VCC = 15V VCC = 12V VCC = 8.5V 12 16

12

16

Output Level [dB]

Output Level [dB]

­8­

CXA1100/CXA1101/CXA1102/CXA1163

NR off Tot al Harmonic Dist ort ion-4 (CX A1102)
1.0 Encode Mode 0dB = Dolby Level f = 1kHz 1.0 0.5

NR on Tot al Harmonic Dist ort ion-4 (CX A1102)
Encode Mode 0dB = Dolby Level f = 1kHz

Total Harmonic Distortion [%]

Total Harmonic Distortion [%]

0.5

0.2 0.1 0.05

0.2 0.1 0.05

0.02 0.01 ­4 0 4 8 12 VCC = 15V VCC = 9V VCC = 6.5V 16 20

0.02 0.01 ­4 0 4 8 12 Output Level [dB] VCC = 15V VCC = 9V VCC = 6.5V 16 20

Output Level [dB]

NR off Tot al Harmonic Dist ort ion-5 (CX A1163)
1.0 1.0

NR on Tot al Harmonic Dist ort ion-5 (CX A1163)

Total Harmonic Distortion [%]

Total Harmonic Distortion [%]

0.5

Encode Mode 0dB = Dolby Level f = 1kHz

0.5

Encode Mode 0dB = Dolby Level f = 1kHz

0.2 0.1 0.05

0.2 0.1 0.05

0.02 0.01 0 4 8 12 16 VCC = 15V VCC = 6V VCC = 5V 20 24

0.02 0.01 0 4 8 12 16 VCC = 15V VCC = 6V VCC = 5V 20 24

Output Level [dB]

Output Level [dB]

Channe l t o Channe l Crosst alk (CX A1101)
­30 ­40 ­50 VCC = 12V/±6V NR off C1 (Pin4) = 100µF ­30 ­40 ­50 ­60 ­70 ­80 ­90

REC t o PB and PB t o REC Crosst alk (CX A1101)
VCC = 12V/±6V NR off C1 (Pin4) = 100µF

Crosstalk [dB]

­60 ­70

Single Supply Split Supply

Encode Decode

Crosstalk [dB]

Single Supply

­80 ­90

Split Supply 100 200 500 1k 2k Frequency [Hz] 5k 10k

100

200

500

1k

2k

5k

10k

Frequency [Hz]

­9­

CXA1100/CXA1101/CXA1102/CXA1163

Ripple Rejection Ratio-1 (CXA1101)
Encode Mode VCC = 12V Single Supply

Ripple Rejection Ratio-2 (CXA1101)
Decode Mode VCC = 12V Single Supply C1 (Pin4) = 100µF ­20 C1 (Pin4) = 470µF ­30 ­40 NR on ­50 NR off ­60 ­70

­10

­10

Ripple rejection ratio [dB]

­20 C1 (Pin4) = 100µF ­30 ­40 ­50 NR off ­60 ­70 100 200 500 1k 2k 5k 10k NR on C1 (Pin4) = 470µF

Ripple rejection ratio [dB]

100 200

500

1k

2k

5k

10k

Frequency [Hz]

Frequency [Hz]

Ripple Rejection Ratio-3 (CXA1101)
VCC Rejection VCC, VEE = ±6V

Ripple Rejection Ratio-4 (CXA1101)

­10

0

NR on

Ripple rejection ratio [dB]

Ripple rejection ratio [dB]

­20 ­30 ­40 NR on ­50 NR off ­60 ­70 100 200 500 1k 2k 5k 10k Encode Decode

­10 ­20 ­30 ­40 ­50 ­60 100 200 500 1k 2k 5k 10k VEE Rejection VCC, VEE = ±6V Encode Decode

NR off

Frequency [Hz]

Frequency [Hz]

Notes on Applications 1) Power supply The CXA1100 Series is basically designed to operate on single ended supply. The split supply operation is also possible, however, VEE (negative) supply should provide low noise and ripple characteristics. The ripple rejection ratio of these devices is generally good for Vcc supply (single ended supply and split supply), however, that for VEE supply is not so good in the NR on mode because the integrated capacitors for the side chain filter are connected to pin 15 (VEE on split supply).

­ 10 ­

CXA1100/CXA1101/CXA1102/CXA1163

When the ripple or noise component of VEE supply is not negligible small, the CR filter shown in Fig. a-1 will be usefull.
R1 43k

The operation voltage range are CXA1100 11.5 to 16V (±5.75 to ±8V) CXA1101 8.5 to 16V (±4.25 to ±8V) CXA1102 6.5 to 16V (±3.25 to ±8V) CXA1163 5.0 to 16V (±2.5 to ±8V)

13 14 47 VEE 100 to 470µF 15 CXA1100 Series

Fig. a-1. The devices will satisfy the signal handling of 12dB specified by Dolby Laboratories on above voltage range. 2) Operation mode control The CXA1100 series provide fully electronic switching circuits. The functions are controlled by DC voltages of the two control pins of REC/PB (pin 12) and ON/OFF (pin 5). The switching truth tables are shown in Fig. a-2. VH and VL are defined as (a) Single ended supply operation VCC VH 2.5V 0.5V VL 0V (b) Split supply operation VCC VH VEE + 2.5V VEE + 0.5V VL VEE REC/PB Function VH VL

PB (Decode) REC (Encode)

ON/OFF Function

VH NR off Fig. a-2.

VL NR on

It is desirable to provide CR time constant circuits at the mode control pins with time constant from 100msec to 1sec, which will reduce switching clicks effectively. 3) Reference levels Characteristics and specifications of the Dolby noise reduction processor are defined as the levels and measured with reference to the Dolby level. This particular level in these devices is ­10dBm (245mVrms), and is measured at the recording output (REC OUT) in the NR off mode. The reference levels of the recording input (REC IN), play back input (PB IN) and line output (LINE OUT) are defined the levels which provide the Dolby level at the recording output in the NR off mode. The CXA1100 series has a common silicon die, and has different internal connection. The series provides four different line output levels for various applications. Other reference levels, recording input level, playback input level and recording output level (= Dolby level) are identical in all devices. The reference levels are as follows Recording output level (= Dolby level) Recording input level Play back input level Line output level CXA1100 CXA1101 CXA1102 CXA1163

­10dBm ­30dBm ­30dBm 0dBm ­3dBm ­6dBm ­10dBm

(245mVrms) (24.5mVrms) (24.5mVrms) (775mVrms) (548mVrms) (388mVrms) (245mVrms)

­ 11 ­

CXA1100/CXA1101/CXA1102/CXA1163

4) MPX filter termination and C1 for Vcc/2 (Pin 4) The MPX (multiplex) filter termination method shown in Fig. a-3 allows saving the coupling capacitors between the buffer amplifiers and MPX filters. However, the channel to channel separation and REC to PB crosstalk of low frequency signals will be degraded by the termination resistor RT. For example, 5k of R1 will degrade the channel to channel separation to 50dB. Better separation can be obtained by increasing the capacitance of C1 (Pin 4) to 220µF or 470µF. The allowable minimum value of C1 is 47µF, and 100µF is the standard recommended value. Larger values of C1 are generally desirable in order to improve the crosstalk and ripple rejection ratio. 5) Application for dubbing cassette decks The CXA1100 series generates non decoded signal at the recoding output in the decode mode, and can simplify the structure of dubbing decks. See the SONY' Dolby B/C type IC (CX20187/CXA1097Q or CX20188/CXA1098Q) data sheet in detail.
C11 4.7µ MPX Buffer Filter MPX Filter RT 16 15 14 13

Line Input

CXA1100 Series

RT Line Input MPX Buffer Filter MPX Filter

1

2

3

4

C21 4.7µ

C1 470µ

Fig. a-3. Switchable Processor with Single Supply
C3 10µ C14 4.7µ LINE OUT C13 (10%) 0.68µ 11 10 9 C15 4.7µ

REC PB IN (­30dBm) REC IN (­30dBm) PB C12 1µ C11 1µ RT RT

REC/PB R2 10k R1 (12 %) 43k 13 12

REC OUT

16

15

14

VCC

1

2

3

4

5 C1 100µ

6

7

8

C25 4.7µ

REC IN (­30dBm) PB IN (­30dBm)

C21 1µ C22 1µ

C2 100µ

C23 (10%) 0.68µ NR ON/OFF C24 4.7µ

REC OUT (­10dBm) LINE OUT

OFF ON

Note 1) Resistor and capacitor tolerances are ±10% and ±20% respectively unless otherwise specified. Note 2) When resistors RT are connected to Pin 4 for the MPX filter termination, increase the capacitances of C1 and C11 (C21) to 470µF and 4.7µF respectively. ­ 12 ­

CXA1100/CXA1101/CXA1102/CXA1163

Switchable Processor with Split Supply
REC/PB R2 10k C3 10µ R1 (12 %) 43k 16 15 14 13 12 11 10 C14 4.7µ LINE OUT C13 (10%) 0.68µ C15 4.7µ REC OUT (­10dBm)

PB REC PB IN (­30dBm) REC IN (­30dBm) VEE C1 100µ

C12 1µ C11 1µ

9

C2 100µ VCC REC IN (­30dBm) PB IN (­30dBm) C21 1µ C22 1µ

1

2

3

4

5

6

7

8

C25 4.7µ REC OUT (­10dBm) LINE OUT

NR ON/OFF ON

C23 (10%) 0.68µ C24 4.7µ OFF

Note 1) Resistor and capacitor tolerances are ±10% and ±20% respectively unless otherwise specified.

Playback Processor with AUX input

AUX TAPE IN (­30dBm) AUX IN (­30dBm)

TAPE/AUX



TAPE C12 1µ C11 1µ 16 15 14

R2 C3 10k 10µ R1 (2%) 43k 13 12 11 10

C14 4.7µ LINE OUT C13 (10%) 0.68µ 9

VCC 1 C21 1µ C22 1µ 2 3 4 5 C1 100µ NR ON/OFF OFF ON 6 7 8 C13 (10%) 0.68µ LINE OUT C24 4.7µ

AUX IN (­30dBm) TAPE IN (­30dBm)

C2 100µ

Note 1) Resistor and capacitor tolerances are ±10% and ±20% respectively unless otherwise specified. Note 2) When AUX inputs are not necessary, reject R2, C3, C11, C21 and TAPE/AUX switch, and connect Pin 12 to Vcc. ­ 13 ­

CXA1100/CXA1101/CXA1102/CXA1163

Package Outline

Unit: mm

CXA1101P, CXA1101P CXA1102P, CXA1163P
16PIN DIP (PLASTIC) 300mil

16PIN DIP (PLASTIC) 300mil
+ 0.1 0.05 0.25 ­

+ 0.1 0.05 0.25 ­

+ 0.3 6.4 ­ 0.1

+ 0.4 19.2 ­ 0.1

16

9 7.62

+ 0.3 6.4 ­ 0.1

+ 0.4 19.1 ­ 0.1

16

9 7.62 0° to 15° 1 2.54 8

0° to 15°

1 2.54

8

0.5 MIN + 0.4 3.7 ­ 0.1 0.5 MIN 0.46 ± 0.1 3.0 MIN 1.53 ± 0.15 3.0 MIN

+ 0.4 3.7 ­ 0.1

0.5 ± 0.1 1.2 ± 0.15

PACKAGE STRUCTURE
PACKAGE MATERIAL SONY CODE EIAJ CODE DIP-16P-03 DIP016-P-0300-B Similar to MO-001-AE LEAD TREATMENT LEAD MATERIAL PACKAGE WEIGHT EPOXY RESIN SOLDER PLATING COPPER / 42 ALLOY 1.0g

PACKAGE STRUCTURE
JEDEC CODE PACKAGE MATERIAL SONY CODE EIAJ CODE JEDEC CODE DIP-16P-01 DIP016-P-0300-A Similar to MO-001-AE LEAD TREATMENT LEAD MATERIAL PACKAGE WEIGHT EPOXY RESIN SOLDER PLATING COPPER 1.0 g

CXA1101M, CXA1102M CXA1163M
16PIN SOP (PLASTIC) 300mil

CXA1100P, CXA1101P CXA1102P
16PIN DIP (PLASTIC) 300mil

19.35 ± 0.5 16 9 0.15 + 0.2 0.1 ­ 0.05 6.9 16 9 7.62

6.35 ± 0.127

+ 0.1 0.28 ­ 0.06

+ 0.4 9.9 ­ 0.1

+ 0.4 1.85 ­ 0.15

0° to 10°

+ 0.3 5.3 ­ 0.1

7.9 ± 0.4

1

8 2.54 ± 0.254

0.45 ± 0.1

1.27

+ 0.1 0.2 ­ 0.05

0.5 ± 0.2

1

8

0.508 MIN 3.1 MIN

1.016

± 0.12 M

0.457 ± 0.076

PACKAGE STRUCTURE
PACKAGE MATERIAL SONY CODE EIAJ CODE JEDEC CODE PACKAGE WEIGHT SOP-16P-L01 SOP016-P-0300-A LEAD TREATMENT LEAD MATERIAL EPOXY RESIN SOLDER PLATING SONY CODE COPPER ALLOY EIAJ CODE JEDEC CODE DIP-16P-191 DIP016-P-0300-AU MS-001-AA

5.08 MAX

PACKAGE STRUCTURE
PACKAGE MATERIAL LEAD TREATMENT LEAD MATERIAL PACKAGE WEIGHT EPOXY RESIN SOLDER PLATING COPPER 1.0g

0.2g

­ 14 ­

CXA1100/CXA1101/CXA1102/CXA1163

CXA1100P, CXA1101P/M, CXA1102P/M, CXA1163P/M
16PIN SOP (PLASTIC) 300mil

+ 0.3 10.2 ­ 0.1 16 9

2.0 MAX

0.05 MIN

+ 0.3 5.3 ­ 0.1

7.8 ± 0.1

1.8

1 0.71 ± 0.1 1.27 ± 0.1 0.4 ± 0.1

8

0.15 ± 0.05
0.13 M

0.15

4° to 8°

NOTE: Dimension "" does not include mold protrusion.

PACKAGE STRUCTURE
PACKAGE MATERIAL SONY CODE EIAJ CODE JEDEC CODE SOP-16P-L122 SOP016-P-0300-BX LEAD TREATMENT LEAD MATERIAL PACKAGE WEIGHT EPOXY RESIN SOLDER PLATING COPPER 0.21g

­ 15 ­

0.75 ± 0.2