MC145484DW Freescale Semiconductor, MC145484DW Datasheet

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MC145484DW

Manufacturer Part Number
MC145484DW
Description
IC 5V PCM CODEC-FILTER 20-SOIC W
Manufacturer
Freescale Semiconductor
Type
PCM Codec/Filterr
Datasheet
1.MC145484SDR2.pdf (28 pages)

Specifications of MC145484DW

Data Interface
PCM Audio Interface
Resolution (bits)
13 b
Number Of Adcs / Dacs
1 / 1
Sigma Delta
No
Voltage - Supply, Digital
4.5 V ~ 5.5 V
Operating Temperature
-40°C ~ 85°C
Mounting Type
Surface Mount
Package / Case
20-SOIC (0.300", 7.50mm Width)
Lead Free Status / RoHS Status
Contains lead / RoHS non-compliant

Available stocks

Company
Part Number
Manufacturer
Quantity
Price
Company:
Bonase Electronics (HK) Co., Limited Bonase Electronics (HK) Co., Limited
Part Number:
MC145484DW
Manufacturer:
MOT
Quantity:
5 510
Company:
Euro Chip Distribution Euro Chip Distribution
Part Number:
MC145484DWR2
Quantity:
400
MOTOROLA
SEMICONDUCTOR TECHNICAL DATA
5 V PCM Codec-Filter
selectable Mu–Law or A–Law companding, and is offered in 20–pin SOG,
SSOP, and TSSOP packages. This device performs the voice digitization and
reconstruction as well as the band limiting and smoothing required for PCM
systems. This device is designed to operate in both synchronous and
asynchronous applications and contains an on–chip precision reference
voltage.
encoder section. The encoder section immediately low–pass filters the analog
signal with an active R–C filter to eliminate very high frequency noise from being
modulated down to the passband by the switched capacitor filter. From the
active R–C filter, the analog signal is converted to a differential signal. From this
point, all analog signal processing is done differentially. This allows processing
of an analog signal that is twice the amplitude allowed by a single–ended
design, which reduces the significance of noise to both the inverted and
non–inverted signal paths. Another advantage of this differential design is that
noise injected via the power supplies is a common–mode signal that is
cancelled when the inverted and non–inverted signals are recombined. This
dramatically improves the power supply rejection ratio.
passes the analog signal from 200 Hz to 3400 Hz before the signal is digitized
by the differential compressing A/D converter.
converter. The output of the D/A is low–pass filtered at 3400 Hz and sinX/X
compensated by a differential switched capacitor filter. The signal is then filtered
by an active R–C filter to eliminate the out–of–band energy of the switched
capacitor filter.
which allows for decoupling of the internal circuitry that generates the
mid–supply V AG reference voltage, to the V SS power supply ground. This
reduces clock noise on the analog circuitry when external analog signals are
referenced to the power supply ground. This device is optimal for electronic
SLIC interfaces.
including Short Frame Sync, Long Frame Sync, IDL, and GCI timing
environments. This device also maintains compatibility with Motorola’s family
of Telecommunication products, including the MC14LC5472 and MC145572
U–Interface Transceivers, MC145474/75 and MC145574 S/T–Interface Trans-
c e i v e r s , M C 1 4 5 5 3 2 A D P C M Tr a n s c o d e r, M C 1 4 5 4 2 2 / 2 6 U D LT – 1 ,
MC145421/25 UDLT–2, and MC3419/MC33120 SLICs.
low–power performance and proven capability for complex analog/digital VLSI
functions.
REV 2
3/98
The MC145484 is a general purpose per channel PCM Codec–Filter with pin
This device has an input operational amplifier whose output is the input to the
After the differential converter, a differential switched capacitor filter band–
The decoder accepts PCM data and expands it using a differential D/A
The MC145484 PCM Codec–Filter has a high impedance V AG reference pin
The MC145484 PCM Codec–Filter accepts a variety of clock formats,
The MC145484 PCM Codec–Filter utilizes CMOS due to its reliable
Single 5 V Power Supply
Typical Power Dissipation of 15 mW, Power–Down of 0.01 mW
Fully–Differential Analog Circuit Design for Lowest Noise
Transmit Band–Pass and Receive Low–Pass Filters On–Chip
Active R–C Pre–Filtering and Post–Filtering
Mu–Law and A–Law Companding by Pin Selection
On–Chip Precision Reference Voltage of 1.575 V for a – 0 dBm TLP @ 600
Push–Pull 300
MC14LC5480EVK is the Evaluation Kit for This Device
TN98031100
Power Drivers with External Gain Adjust
Freescale Semiconductor, Inc.
For More Information On This Product,
Go to: www.freescale.com
20
20
20
MC145484DW
MC145484SD
MC145484DT
ORDERING INFORMATION
V AG Ref
MC145484
BCLKR
RO-
PO+
V DD
PO-
FSR
1
PDI
DR
PI
1
PIN ASSIGNMENT
1
1
2
3
4
5
6
7
8
9
10
SOG PACKAGE
Order this document
SOG Package
SSOP
TSSOP
DW SUFFIX
CASE 751D
CASE 940C
SD SUFFIX
CASE 948E
DT SUFFIX
20
19
18
17
16
15
14
13
12
11
TSSOP
SSOP
by MC145484/D
V AG
TI+
TI-
TG
Mu/A
V SS
FST
DT
BCLKT
MCLK
MC145484
1

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MC145484DW Summary of contents

Page 1

... For More Information On This Product, Go to: www.freescale.com Order this document by MC145484/D MC145484 DW SUFFIX SOG PACKAGE 20 CASE 751D 1 SD SUFFIX SSOP CASE 940C SUFFIX TSSOP CASE 948E 20 1 ORDERING INFORMATION MC145484DW SOG Package MC145484SD SSOP MC145484DT TSSOP PIN ASSIGNMENT V AG Ref RO TI TI- PO- 4 ...

Page 2

... Freescale Semiconductor, Inc Ref Figure 1. MC145484 5 V PCM Codec–Filter Block Diagram DEVICE DESCRIPTION A PCM Codec–Filter is used for digitizing and reconstruct- ing the human voice. These devices are used primarily for the telephone network to facilitate voice switching and trans- mission. Once the voice is digitized, it may be switched by digital switching methods or transmitted long distance (T1, microwave, satellites, etc ...

Page 3

... Freescale Semiconductor, Inc. PIN DESCRIPTIONS POWER SUPPLY V DD Positive Power Supply (Pin 6) This is the most positive power supply and is typically con- nected This pin should be decoupled with a 0.1 F ceramic capacitor Negative Power Supply (Pin 15) This is the most negative power supply and is typically connected ...

Page 4

... Freescale Semiconductor, Inc. RO– Receive Analog Output (Inverting) (Pin 2) This is the inverting output of the receive smoothing filter from the digital–to–analog converter. This output is capable of driving load to 1.575 V peak referenced to the V AG pin. If the device is operated half–channel with the FST pin clocking and FSR pin held low, the receive filter input will be conencted to the V AG voltage ...

Page 5

... Freescale Semiconductor, Inc. FUNCTIONAL DESCRIPTION ANALOG INTERFACE AND SIGNAL PATH The transmit portion of this device includes a low–noise, three–terminal op amp capable of driving amp has inputs of TI+ (Pin 19) and TI– (Pin 18) and its output is TG (Pin 17). This op amp is intended to be confi- gured in an inverting gain circuit ...

Page 6

... Freescale Semiconductor, Inc. Table 1. PCM Codes for Zero and Full Scale Level Sign Bit + Full Scale 1 + Zero 1 – Zero 0 – Full Scale 0 Phase Sign Bit / For More Information On This Product, MC145484 6 Mu–Law Chord Bits Step Bits Sign Bit Table 2. PCM Codes for Digital mW Mu– ...

Page 7

... Freescale Semiconductor, Inc. FST (FSR) BCLKT (BCLKR DON'T CARE 1 Figure 2a. Long Frame Sync (Transmit and Receive Have Individual Clocking) FST (FSR) BCLKT (BCLKR DON'T CARE 1 Figure 2b. Short Frame Sync (Transmit and Receive Have Individual Clocking) IDL SYNC (FST) IDL CLOCK (BCLKT) ...

Page 8

... Freescale Semiconductor, Inc. Long Frame Sync Long Frame Sync is the industry name for one type of clocking format that controls the transfer of the PCM data words. (Refer to Figure 2a.) The ‘‘Frame Sync’’ or ‘‘Enable’’ is used for two specific synchronizing functions. The first is to synchronize the PCM data word transfer, and the second is to control the internal analog– ...

Page 9

... Freescale Semiconductor, Inc. FSR pin controls whether the B1 channel or the B2 channel is used for both transmit and receive PCM data word trans- fers. When the FSR pin is low, the transmit and receive PCM words are transferred in the B1 channel, and for FSR high the B2 channel is selected ...

Page 10

... Freescale Semiconductor, Inc. telephones, DSP front–end, etc.) special care must be taken to assure optimum analog transmission performance. PC BOARD MOUNTING It is recommended that the device be soldered to the PC board for optimum noise performance. If the device used in a socket, it should be placed in a low parasitic pin inductance (generally, low– ...

Page 11

... Freescale Semiconductor, Inc. MAXIMUM RATINGS (Voltages Referenced Pin) Rating DC Supply Voltage Voltage on Any Analog Input or Output Pin Voltage on Any Digital Input or Output Pin Operating Temperature Range Storage Temperature Range POWER SUPPLY ( – Characteristics DC Supply Voltage Active Power Dissipation ( Power–Down Dissipation (V IH for Logic Levels Must be ...

Page 12

... Freescale Semiconductor, Inc. ANALOG ELECTRICAL CHARACTERISTICS Characteristics Input Current Input Resistance – 0 Input Capacitance Input Offset Voltage Amp Input Common Mode Voltage Range Input Common Mode Rejection Ratio Gain Bandwidth Product (10 kHz Amp ( Open Loop Gain Amp ( Equivalent Input Noise (C–Message) Between TI+ and TI– ...

Page 13

... Freescale Semiconductor, Inc. ANALOG TRANSMISSION PERFORMANCE ( 10 All Analog Signals Referenced dBm0 = 0.775 Vrms = + 0 dBm @ 600 , FST = FSR = 8 kHz, BCLKT = MCLK = 2.048 MHz Synchronous Operation – Unless Otherwise Noted) Characteristics Peak Single Frequency Tone Amplitude without Clipping Absolute Gain (0 dBm0 @ 1.02 kHz 5.0 V) ...

Page 14

... Freescale Semiconductor, Inc. DIGITAL SWITCHING CHARACTERISTICS, LONG FRAME SYNC AND SHORT FRAME SYNC ( 10 All Digital Signals Referenced – 150 pF, Unless Otherwise Noted) Ref. No. Characteristics 1 Master Clock Frequency for MCLK 1 MCLK Duty Cycle for 256 kHz Operation 2 Minimum Pulse Width High for MCLK (Frequencies of 512 kHz or Greater) ...

Page 15

... Freescale Semiconductor, Inc MCLK 1 BCLKT 11 FST 16 MSB DT 1 BCLKR 11 12 FSR MSB DR For More Information On This Product, MOTOROLA CH1 CH2 CH3 ST1 CH1 CH2 CH3 ST1 Figure 3. Long Frame Sync Timing Go to: www.freescale.com ST2 ST3 LSB ST2 ST3 LSB MC145484 15 ...

Page 16

... Freescale Semiconductor, Inc MCLK 12 1 BCLKT 20 11 FST 22 MSB DT 1 BCLKR FSR 13 MSB DR For More Information On This Product, MC145484 CH1 CH2 CH3 ST1 CH1 CH2 CH3 ST1 Figure 4. Short Frame Sync Timing Go to: www.freescale.com ST2 ST3 LSB ST2 ST3 LSB MOTOROLA ...

Page 17

... Freescale Semiconductor, Inc. DIGITAL SWITCHING CHARACTERISTICS FOR IDL MODE ( 5 – 150 pF, See Figure 5 and Note 1) Ref. No. 31 Time Between Successive IDL Syncs 32 Hold Time of IDL SYNC After Falling Edge of IDL CLK 33 Setup Time of IDL SYNC Before Falling Edge IDL CLK ...

Page 18

... Freescale Semiconductor, Inc. DIGITAL SWITCHING CHARACTERISTICS FOR GCI MODE ( 5 – 150 pF, See Figure 6 and Note 1) Ref. No. 42 Time Between Successive FSC Pulses 43 DCL Clock Frequency 44 DCL Clock Pulse Width High 45 DCL Clock Pulse Width Low 46 Hold Time of FSC After Falling Edge of DCL ...

Page 19

... Freescale Semiconductor, Inc 0 AUDIO OUT + + 5 V 0.1 F Figure 7. MC145484 Test Circuit — Signals Referenced Pin 0.1 F AUDIO OUT AUDIO OUT + R L 150 0.1 F Figure 8. MC145484 Test Circuit — Signals Referenced For More Information On This Product, MOTOROLA Ref TI Mu/A PO+ ...

Page 20

... Freescale Semiconductor, Inc 0.1 F GND 1/2 MC74HC73 K GND 8 kHz 256 2.048 MHz Figure 9. Long Frame Sync Clock Circuit for 2.048 MHz SIDETONE REC + 5 V 0.1 F Figure 10. MC145484 Analog Interface to Handset For More Information On This Product, MC145484 20 2.048 MHz 300 R OSC IN OSC ...

Page 21

... Freescale Semiconductor, Inc 600 TIP RING + 5 V 0.1 F Figure 11. MC145484 Transformer Interface to 600 R0 = 600 TIP N = 0 0.5 RING 0.1 F Figure 12. MC145484 Step–Up Transformer Interface to 600 For More Information On This Product, MOTOROLA 1 0 Ref RO- TI TI Mu/A PO FSR FST 8 DR ...

Page 22

... Freescale Semiconductor, Inc. MC33120/1 MC145484 NOTES: 1. Component values can be adjusted as needed for desired transmit and receive gain, terminating impedance, and transhybrid loss line should be clean and free of noise. 3. Keep digital signal lines away from analog signal lines to keep noise from coupling into the analog sections. ...

Page 23

... Freescale Semiconductor, Inc. Table 3. Mu–Law Encode–Decode Characteristics Normalized Encode Chord Number Step Decision Number of Steps Size Levels 8159 7903 8 16 256 4319 4063 7 16 128 2143 2015 1055 991 511 479 239 223 103 NOTES: 1. Characteristics are symmetrical about analog zero with sign bit = 0 for negative analog values. ...

Page 24

... Freescale Semiconductor, Inc. Table 4. A–Law Encode–Decode Characteristics Normalized Encode Chord Number Step Decision Number of Steps Size Levels 4096 3968 7 16 128 2176 2048 1088 1024 544 512 272 256 136 128 NOTES: 1. Characteristics are symmetrical about analog zero with sign bit = 0 for negative analog values. ...

Page 25

... Freescale Semiconductor, Inc. –A– –B– 20X 0.010 (0.25 18X –R– –P– 0.120 (0.005) M For More Information On This Product, MOTOROLA PACKAGE DIMENSIONS DW SUFFIX SOG PACKAGE CASE 751D–04 P 10X 0.010 (0.25 SEATING –T– PLANE M SD SUFFIX SSOP CASE 940C– ...

Page 26

... Freescale Semiconductor, Inc. K 20X 0.10 (0.004) 0.15 (0.006 L PIN 1 IDENT 1 0.15 (0.006 –V– 0.100 (0.004) –T– SEATING PLANE For More Information On This Product, MC145484 26 DT SUFFIX TSSOP CASE 948E–02 REF Í Í Í Í Í Í –U– ...

Page 27

... Freescale Semiconductor, Inc. For More Information On This Product, MOTOROLA This page intentionally left blank. Go to: www.freescale.com MC145484 27 ...

Page 28

... Freescale Semiconductor product could create a situation where personal injury or death may occur. Should Buyer ...

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