mt9094apr1 Zarlink Semiconductor, mt9094apr1 Datasheet - Page 9
mt9094apr1
Manufacturer Part Number
mt9094apr1
Description
Fully Featured Digital Telephone Circuit With Embedded Dsp For Tone Generation And Hands Free Operation
Manufacturer
Zarlink Semiconductor
Datasheet
1.MT9094APR1.pdf
(37 pages)
The ringer program switches between these two frequencies at a rate defined by the 8-bit coefficient programmed
into the Tone Ringer Warble Rate Register (address 26h). The warble rate is defined by the equation:
where 0 < COEFF < 256, a warble rate of 5-20 Hz is suggested.
An alternate method of generating ringer tones to the speakerphone speaker is available. With this method the
normal receive speech path through the decoder and receive filter is uninterrupted to the handset, allowing an
existing conversation to continue. The normal DSP and Filter/CODEC receive gain control is also retained by the
speech path. When the OPT bit (DSP Control Register address 1Eh) is set high the DSP will generate the new call
tone according to the coefficients programmed into registers 23h, 24h and 26h as before. In this mode the DSP
output is no longer a PCM code but a toggling signal which is routed directly through the New Call Tone gain control
section to the loudspeaker driver. Refer to the section titled ‘New Call Tone’.
Handsfree Program
A half-duplex speakerphone program, fully contained on chip, provides high quality gain switching of the transmit
and receive speech PCM to maintain loop stability under most network and local acoustic environments. Gain
switching is performed in continuous 1.5 dB increments and operates in a complimentary fashion. That is, with the
transmit path at maximum gain the receive path is fully attenuated and vice versa. This implies that there is a mid
position where both transmit and receive paths are attenuated equally during transition. This is known as the idle
state.
Of the 64 possible attenuator states, the algorithm may rest in only one of three stable states; full receive, full
transmit and idle. The maximum gain values for full transmit and full receive are programmable through the
microport at addresses 20h and 1Dh respectively, as is done for normal handset operation. This allows the user to
set the maximum volumes to which the algorithm will adhere. The algorithm determines which path should maintain
control of the loop based upon the relative levels of the transmit and receive audio signals after the detection and
removal of background noise energy. If the algorithm determines that neither the transmit or the receive path has
valid speech energy then the idle state will be sought. The present state of the algorithm plus the result of the Tx vs.
Rx decision will determine which transition the algorithm will take toward its next stable state. The time durations
required to move from one stable state to the next are parameters defined in CCITT Recommendation P.34 and are
used by default by this algorithm (i.e., build-up time, hang-over time and switching time).
Quiet Code
The DSP can be made to send quiet code to the decoder and receive filter path by setting the RxMUTE bit high.
Likewise, the DSP will send quiet code in the transmit (DSTo) path when the TxMUTE bit is high. Both of these
control bits reside in the DSP Control Register at address 1Eh. When either of these bits are low, their respective
paths function normally.
Transducer Interfaces
Four standard telephony transducer interfaces are provided by the DPhone-II. These are:
•
The handset microphone inputs (transmitter), pins M+/M- and the speakerphone microphone inputs, pins
MIC+/MIC-. The transmit path is muted/not-muted by the MIC EN control bit. Selection of which input pair is
to be routed to the transmit filter amplifier is accomplished by the MIC/HNSTMIC control bit. Both of these
reside in the Transducer Control Register (address 0Eh). The nominal transmit path gain may be adjusted to
either 6.1 dB (suggested for µ-Law) or 15.4 dB (suggested for A-Law). Control of this gain is provided by the
MICA/u control bit (General Control Register, address 0Fh). This gain adjustment is in addition to the
programmable gain provided by the transmit filter and DSP.
Tone duration (warble frequency
Zarlink Semiconductor Inc.
in Hz) = 500/COEFF
MT9094
9
Data Sheet
Related parts for mt9094apr1
Image
Part Number
Description
Manufacturer
Datasheet
Request
R
Part Number:
Description:
Zarlink Semiconductor Inc [TV IF PREAMPLIFIER]
Manufacturer:
Zarlink Semiconductor
Datasheet:
Part Number:
Description:
256 x 256 Channels (8 TDM Streams @ 2.048Mb/s) Non-blocking Digital Switch (DX)
Manufacturer:
Zarlink Semiconductor
Datasheet:
Part Number:
Description:
Manufacturer:
Zarlink Semiconductor
Datasheet:
Part Number:
Description:
Manufacturer:
Zarlink Semiconductor
Datasheet:
Part Number:
Description:
Manufacturer:
Zarlink Semiconductor
Datasheet:
Part Number:
Description:
Manufacturer:
Zarlink Semiconductor
Datasheet:
Part Number:
Description:
Video Programme Delivery Control Interface Circuit
Manufacturer:
Zarlink Semiconductor
Datasheet:
Part Number:
Description:
SP8719520MHz LOW CURRENT TWO-MODULUS DIVIDERS
Manufacturer:
Zarlink Semiconductor
Datasheet:
Part Number:
Description:
REMOTE CONTROL RECEIVER
Manufacturer:
Zarlink Semiconductor
Datasheet:
Part Number:
Description:
2·5GHz ÷8192 PRESCALER
Manufacturer:
Zarlink Semiconductor
Datasheet:
Part Number:
Description:
1·3GHz 4256 PRESCALER WITH LOW CURRENT AND LOW RADIATION
Manufacturer:
Zarlink Semiconductor
Datasheet:
Part Number:
Description:
Manufacturer:
Zarlink Semiconductor
Datasheet:
Part Number:
Description:
Manufacturer:
Zarlink Semiconductor
Datasheet:
Part Number:
Description:
Manufacturer:
Zarlink Semiconductor
Datasheet:
Part Number:
Description:
Manufacturer:
Zarlink Semiconductor
Datasheet: