View MK53761_156088.PDF datasheet online --- IC-ON-LINE

Datasheet File OCR Text:

www..com
MK53761
REPERTORY DIALER
.SI .SOFTSWI .NI .FLASHKEYI .8 .DTMFACTI .MI .PACI .POWERED
NGLE CHIP DTMF AND PULSE DIALER TCH CHANGES SIGNALING MODE FROM PULSE TO TONE NE NUMBER REPERTORY PLUS RECALL OF LAST NUMBER DIALED (18 digits each) NPUT INITIATES TIMED HOOK FLASH TONE PER SECOND DIALING IN TONE MODE AND 10 PPS IN PULSE MODE VE UNTIL KEY RELEASE NIMUM DTMF DURATION/SEPARATION GUARANTEED (74/54 ms) FIER TONE PROVIDES AUDIBLE INDICATION OF VALID KEY INPUT FOR NONDTMF KEY ENTRIES FROM TELEPHONE LINE, LOW OPERATING VOLTAGE FOR LONG LOOP APPLICATIONS
DIP18
SO20
ORDERING NUMBERS : MK53761N00 MK53761D
Figure 1 : Pin Connections.
V+ MODE C1 C2 C3 VOSC1 OSC2
1 2 3 4 5 6 7 8 9
D93TL017
18 17 16 15 14 13 12 11 10
PULSE OUTPUT HKS R1 R2 R3 R4 MUTE OUTPUT PACIFIER TONE/ CHIP DISABLE DTMF OUTPUT
DESCRIPTION The MK53761 is a Silicon Gate CMOS IC that provides necessary signals for either DTMF or loop disconnect (pulse) dialing. The MK53761 buffers up to 18 digits into memory that can be later redialed with a single key input. Up to nine repertory numbers may be stored. Users can store all 12 signaling keys and access several unique functions with single key entries. These functions include : Last Number Dialed (LND), Softswitch, and Flash. Figure 2 shows the keypad configuration. A LND key input automatically redials the last number dialed. The PROG key provides an easy way to program a number into any memory location (1-9) whether on-hook on off-hook. The MEM key allows easy redialing of the number stored in memory locations (1-9). The FLASH key simulates a 560 ms hook flash to transfer calls or to activate other special features provided by the PABX or a central office.
July 1993
C4
DIP18
V+ MODE C1 C2 C3 VOSC1 OSC2 C4 N.C.
1 2 3 4 5 6 7 8 9 10
D93TL018
20 19 18 17 16 15 14 13 12 11
PULSE OUTPUT HKS R1 R2 R3 R4 MUTE OUTPUT PACIFIER TONE/ CHIP DISABLE DTMF OUTPUT N.C.
SO20
1/11
MK53761
Figure 2 : Keypad Configuration. In the tone mode, if 2 or more keys in the same row or if 2 or more keys in the same column are depressed a single tone will be output. The tone will corres-pond to the row or column for which the 2 keys were pushed. This feature is for test purposes, and single tones will not be redialed. Also in the tone mode, the outputtone is continuous is manual dialing as long as the key is pushed. The output tone duration follows the table 1. Table 1 : Output Tone Duration.
Key-Push Time, T* T 32ms 32ms T 75ms + TKD T 75ms + TKD Tone Outpu t* No Output Ignored by MK53761 75ms Duration Output Output Duration = T - TKD
FUNCTIONAL PIN DESCRIPTION (DIP18 only) V+ Pin 1. V+ is the positive supply for the circuit and must meet the maximum and minimum voltage requirements. (see electrical specifications). MODE Input. Pin 2. MODE determines the dialer's default operating mode. When the device is powered up or the hookswitch inputis switched from on-hook, (V+), to off-hook, (V-), the default determines the signaling mode. A V+ connection defaults to tone mode operation and a V- connection defaults to pulse mode operation. When dialing in the pulse mode, a softswitch feature will allow a change to the tone mode whenever the * key, or softswitch, is depressed. Subsequent * key inputs will causethe DTMF code for an * to be dialed. The softswitch will only switch from pulse to tone. After returning to on-hook and back to off-hook, the part will be in pulse mode. Redial by the LND key will repeat the softswitch. C1, C2, C3, C4, R4, R3, R2, R1 Keyboard inputs. The MK53761 interfaces with either the standard 2-of-8 with negative common or the singlecontact (Form A) keyboard. A valid keypad entry is either a single Row connected to a single Column or V- simultaneouslypresented to both a single Row and Column. In its quiescent or standby state, during normal off-hook operation, either the Rows or the Columns are at a logic level 1 (V+). Pulling one input low enables the on-chip oscillator. Keyboard scanning then begins. Scanning consists of Rows and Columns alternately switching high through on-chip pullups. After both a Row and Column key have been detected, the debounce counter is enabled and any noise (bouncing contacts, etc.) is ignored for a debounce period (TKD) of 32ms. At this time, the keyboard is sampled and if both Row and Column information are valid, the information is buffered into the LND location. If switched on-hook (pin 17 to pin 1), the keyboard inputs all pull high through on-chip pullup resistors.
2/11
* TKD is the key pad debounce time which is typically 32 ms.
Whenredialing in the tone mode, eachDTMF output is 75ms duration, and the tone separation (intersignal delay) is 50ms. V- Input. Pin 6 is the negative supply input to the device. This is the voltage reference for all specifications. OSC1, OSC2 Pin 7 (input), pin 8 (output). OSC1 and OSC2 are connections to an on-chip inverter used as the timing reference forthe circuit. It has sufficient loopgain to oscillate when used with a low-cost television color-burst crystal. The nominal crystal frequency is 3.579545MHz and any deviation from this standard is directly reflected in the Tone output frequencies. The crystal oscillator provides the time reference for all circuit functions. A ceramic resonator with tolerance of 0.25 % may also be used. DTMF OUTPUT Output. Pin 10. An NPN transistor emitter with a collector tied to V+ drives the DTMF OUTPUT pin. The transistor base is connected to an on-chip operational amplifier that mixes the Row and Column tones. Figure 7 shows the timing at this pin. The DTMF OUTPUT is the summation of a single Row frequency and a single Column frequency. A typical single tone sine wave is shown in Figure 4. This waveform is synthesized using a resistor tree with sinusoidally weighted taps. The MK53761 is designed to operate from an unregulated supply ; the TONE LEVEL is supply independent, and the single row tone output level will be typically : Toi = -12 dBm 1 dB The DC componentof the DTMF output while active is described by the following equation : VDC1 = 0.3 V+ + 0.5 Volts
MK53761
Figure 3 : MK53761 Functional Block Diagram.
Figure 4 : Typical Single Tone.
Figure 5 : Typical Dual Tone.
3/11
MK53761
Figure 6 : Typical Spectral Response. feed-back, confirming that the key has been properly entered and accepted. A 500 Hz square wave is activated upon acceptance of a valid key input, after the 32 ms debounce time. The square wave terminates after a maximum of 30 ms or when the valid key is no longer present. In pulse mode, all key entries activate the pacifier tone. In tone mode, any non-DTMF key (LND, FLASH, MEM, PROG) entry activates the pacifier tone. When programming the chip, all valid key entries activate the pacifier tone in either pulse or tone mode. The CHIP DISABLE is an input. When pin 11 is switched low through a resistor (10 K to 100 K), the MK53761is enabled. When pin 11 is switched to V+ through the resistor, all keypad inputs are pulled high, and the MK53761 will ignore all keypad inputs. When the chip is disabled, it will not dial, and it cannot be programmed. The chip can only be disabled when the circuit is inactive (not dialing) and Pin 12 is switched high.
PACIFIER TONE OUTPUT/CHIP DISABLE INPUT Output. Pin 11. The pacifier tone provides audible Table 2 : DTMF Output Frequency.
Key Input ROW 1 2 3 4 1 2 3 Standard Frequency 697 770 852 941 1209 1336 1477
Actual Frequency 699.1 766.2 847.4 948.0 1215.9 1331.7 1471.9
% Deviation + 0.31 - 0.49 - 0.54 + 0.74 + 0.57 - 0.32 - 0.35
COL
MUTE OUTPUT Output. Pin 12. This pin is the MUTE OUTPUT for both tone and pulse modes. Timing is dependent upon mode. The MUTE OUTPUT consists of an open drain Nchannel device. During standby, the output is high impedance and generally has an external pullup resistor to the positive supply. In the tone mode, MUTE OUTPUT is used to remove the transmitter and the receiver from the network during DTMF signaling. During dialing, MUTE OUTPUT is active continuously until dialing is completed. MUTE OUTPUT goes active when any key is pushed. In the pulse mode, MUTE OUTPUT is used to remove the receiver and the network from the line. Different circuitry is required for tone and pulse muting externalto the IC and applicationsusing both modes would not necessarily share circuitry. MUTE OUTPUT timing is shown in Figure 8 for pulse mode sig-
naling and Figure 7 for tone mode signaling. MUTE OUTPUT is active during each digit, and not active during the interdigit time. In both tone and pulse modes, MUTE OUTPUT goes active 40 ms before PULSE OUTPUT for a FLASH. Figure 8 illustrates the timing for this pin. HKS Input. Pin 17. Pin 17 is the hookswitch input to the MK53761. This is a high-impedanceinput and must be switched high for on-hook operationor low for offhook operation. A transition on this input causes the on-chip logic to initialize, terminating any operation in progress at the time. The signaling mode defaults to the mode selected at pin 2. PULSE OUTPUT Output. Pin 18. This is an output consisting of an open drain N-channel device. In either pulse or tone mode, the FLASH key will cause a 560 ms output pulse at pin 18.
4/11
MK53761
Figure 7 : Tone Mode Timing.
Notes : 1. For this example, key entries are 75 ms, but 32 ms. 2. MUTE goes active after any key is depressed.
Figure 8 : Pulse Mode Timing.
5/11
MK53761
DEVICE OPERATION When the MK53761 is not actively dialing, it consumes very little current. Row and Column inputs assume opposite states off-hook. The circuit verifies that a valid key has been entered by alternately scanning the Row and Column inputs. If the input is still valid following 32 ms of debounce, the digit is stored into memory, and dialing begins after a presignal delay of approximately 40 ms (measured from initial key closure). Output tone duration is shown in Table 1. The MK53761 allows manual dialing of an indefinite numberof digits, but if more than18 digits are dialed per number, the 53761 will "wrap around". That is, the extra digits beyond 18 will be stored at the beginning of the LND buffer, and the first 18 digits will no longer be available for redial. During autodial fromLND or any memory location,key inputsare not accepted, but they will suspend dialing until released. NORMAL DIALING (off-hook)
D D D ...ET C
Flash consists of a timed Break of 560 ms. The FLASH function is stored in memory, but it will not be redialed as such. When a FLASH key is pressed, no further key inputs will be accepted until the hookflash function (560 ms break) has been dialed. The key input following a FLASH will be stored as the initial digit of a new number (overwriting the number dialed prior to the FLASH) unless it is another FLASH. Consecutive FLASH entries after a number is dialed will be stored sequentiallyin the LND memory and a subsequentLND entrywill cause the redial of that number with a delay, but not hookflash breaks, at the end of the redialing sequence. When redialing in tone mode, MUTE OUTPUT will remain active during the flash delay period. SOFTSWITCH Whendialing in the pulse mode, a softswitch feature will allow a change to the tone mode whenever the * key is depressed. Subsequent * key inputs will cause the DTMF code for an * to be dialed. The softswitch will only switch from pulse to tone. After returning to on-hook and back to off-hook, the part will be in pulse mode. Redial by the LND key will repeat the softswitch. PROGRAMMING AND REPERTORY DIALING Programming is independent of HKS (pin 17) and MODE (pin 2). To program, enter the following : PROG, Digit 1, Digit 2, ..., MEM, Location (1-9). When programming, dialing in inhibited. To dail a numberfrom repertory memory (HKS must be low) enter the following : MEM, Location (1-9). To save the last number dialed : PROG, MEM, Location (1-9).
Normal dialing is straightforward, all keyboard entries will be stored in the buffer and signaled in succession. LAST NUMBER DIALED (LND)
LND
Last number dialing is accomplished by enteringthe LND key. HOOK FLASH
D F LASH D ...ET C
Hook flash may be entered into the dialed sequence at any point by keying in the function key, FLASH.
6/11
MK53761
Table 3 : Special Function Delays. Each delay shown below represents the time required from after the special function key is depressed until a new digit can be dialed. The time is considered "FIRST" key is all previous inputs have been completed dialed. The time is considered "AUTO" if in redial, or previous dialing is still in progress.
Function SOFTSWITCH FIRST AUTO First/Auto Pulse 0.40 1.10 Tone
ABSOLUTE MAXIMUM RATINGS*
Parameter DC Supply Voltage Operating Temperature Storage Temperature Maximum Power Dissipation (25 C) Maximum Voltage on any Pin Value 6.5 - 20 to +60 - 55 to + 125 500 (V+) + .3 ; (V-) - .3 Unit V C C mW V
* All speci ficati ons are for 2.5 V olt operation and f ull oper ating temperature r ange unless otherwi se stat ed.
ELECTRICAL CHARACTERISTICS (T amb = 25C unless otherwise specified) DC CHARACTERISTICS
Symbol V+ TONE VMR IS IMR VMUTE IT IP Parameter DC Operating Voltage (tone mode) Memory Retention Voltage Standby Current Memory Retention Current Mute Output Operating Voltage Operating Current (tone) Operating Current (pulse) Operating Current On-hook Program Mode Key Operated No-key Operated IML IPL IPC KRU KRD VIL VIH VPULSE
Notes : 1. 2. 3. 4. 5. 6.
Min. 2.5 1.5
Typ.
Max. 6.0
Unit V V
Notes
1. 6 1 5. 6 7 2 2
0.4 0.15 1.8 300 150
1.0 0.75 600 250 200 1
A A V A A A A mA mA
Mute Output (2.5 Volts) Sink Current (4.0 Volts) Pulse Output Sink Current Pacifier Tone Sink/Source Keypad Pullup Resistance Keypad Pulldown Resistance Keypad Input Level-low Keypad Input Level-high Operating Voltage (pulse mode)
1.0 3.0 1.0 250 2.0 500 100 500 0 0.7 V + 1.8 0.3 V + V+ 6.0
3 3 4
mA A k V V V
All inputs unloaded. Quiescent mode (oscillator off). All outputs unloaded, single key input. VOUT = 0.4 Volts. Sink current for VOUT = 0.5 Volts, Source Current for VOUT = 2.0 Volts. Memory Retention Voltage is the point where memory is guaranteed but circuit operation is not. Proper memory retention is guaranteed if either the minimum IMR is provided or the minimum VMR. The design does not have to provide both the minimum current or voltage simultaneously. 7. Minimum voltage where activation of mute output with key entry is ensured.
7/11
MK53761
ELECTRICAL CHARACTERISTICS (continued) AC CHARACTERISTICS - TONE MODE
N Symbol TNK TOi PEi DCi Parameter Tone Output no Key Down Tone Output (independent) Pre-emphasis, High Band Tone Output DC Bias V + = 2.5 V + = 3.5 Tone Output Load Tone Output Rise Time Output Distortion Tone Signaling Rate Pre-signal Delay Inter-signal Delay (repertory) Tone Output Duration (repertory) 40 54 74 - 13 173 1.4 - 12 194 2.0 1.25 1.5 10 1.0 5.0 8.0 8.0 k ms % 1/sec ms ms ms 6 4 5 3 Min. Typ. Max. - 80 - 11 218 2.6 Unit dBm dBm mVrms dB V Notes 1 1, 2 3
RE TRIS DIS TR 1 2 TPSD TISD TDUR
Notes : 1. O dBm equals 1 mW power into 600 or 775 mVolts.Important note : the MK53761 is designed to drive a 10 k load. The 600 load is only for reference. 2. Single tone (low group), as measured at pin 10, TA = 25C. 3. Supply voltage = 2.5V; RE = 10 k. TOi increases typically of 10mVrms with VS = 6V. 4. Supply voltage = 2.5 volts. 5. Time from beginning of tone output waveform to 90 % of final magnitude of either frequency. Crystal parameters suggested for proper operation are Rs < 100 , Lm = 96 mH, Cm = 0.02 pF, Ch = 5 pF, f = 3.579545 MHz, and CL = 18 pF. 6. Time from initial key input until beginnig of signaling.
AC CHARACTERISTICS - KEYPAD INPUTS, PACIFIER TONE (numbers in left hand column refer to the timing diagrams.)
N 3 Symbol TKD FKS FPT 4
Note :
Parameter Keypad Debounce Time Keypad Scan Frequency Frequency Pacifier Tone Pacifier Tone Duration Hookflash Timing
Min.
Typ. 32 250 500 30 560
Max.
Unit ms Hz Hz ms ms
Notes 1 1 1 1 1
TPT THFP
1. Crystal oscillator accuracy directly affects these times
AC CHARACTERISTICS - PULSE MODE OPERATION
N 5 6 7 8 9 Symbol PR PDP IDP TMO TB TM Pulse Rate Predigital Pause Interdigital Pause Mute Overlap Time Break Time Make Time Parameter Min. Typ. 10 48 740 2 60 40 Max. Unit PPS ms ms ms ms ms Notes 1 2 2 2 2 2
Notes : 1. 10 PPS is the nominal rate. 2. Figure 8 illustrates this relationship.
8/11
MK53761
SO20 PACKAGE MECHANICAL DATA
DIM. Min. A a1 a2 b b1 C c1 D E e e3 F L M S 7.4 0.5 12.6 10 1.27 11.43 7.6 1.27 0.75 8 (max.)
o
mm Typ. Max. 2.65 0.1 0.2 2.45 0.35 0.23 0.5 45 (typ.) 13.0 10.65 0.496 0.394
o
inch Min. Typ. Max. 0.104 0.004 0.008 0.096 0.014 0.009 0.020 0.019 0.013
0.49 0.32
0.510 0.419 0.050 0.450
0.291 0.020
0.300 0.050 0.030
9/11
MK53761
DIP18 PACKAGE MECHANICAL DATA
DIM. MIN. a1 B b b1 D E e e3 F I L Z 3.3 1.27 1.59 8.5 2.54 20.32 7.1 3.93 0.130 0.050 0.062 0.254 1.39 0.46 0.25 23.24 0.335 0.100 0.800 0.280 0.155 1.65 mm TYP. MAX. MIN. 0.010 0.055 0.018 0.010 0.914 0.064 inch TYP. MAX.
10/11
MK53761
Information furnished is believed to be accurate and reliable. However, SGS-THOMSON Microelectronics assumes no responsibility for the consequences of use of such information nor for any infringement of patents or other rights of third parties which may result from its use. No license is granted by implication or otherwise under any patent or patent rights of SGS-THOMSON Microelectronics. Specifications mentioned in this publication are subject to change without notice. This publication supersedes and replaces all information previously supplied. SGS-THOMSON Microelectronics products are not authorized for use as critical components in life support devices or systems without express written approval of SGS-THOMSON Microelectronics. (c) 1994 SGS-THOMSON Microelectronics - All Rights Reserved SGS-THOMSON Microelectronics GROUP OF COMPANIES Australia - Brazil - France - Germany - Hong Kong - Italy - Japan - Korea - Malaysia - Malta - Morocco - The Netherlands Singapore - Spain - Sweden - Switzerland - Taiwan - Thaliand - United Kingdom - U.S.A.
11/11

▲Up To Search▲

Price & Availability of MK53761

	To Download MK53761 Datasheet File
If you can't view the Datasheet, Please click here to try to view without PDF Reader .