MT8889 Zarlink Semiconductor, Inc., MT8889 Datasheet
MT8889
Available stocks
Related parts for MT8889
MT8889 Summary of contents
Page 1
... Credit card systems • Paging systems • Repeater systems/mobile radio • Interconnect dialers • Personal computers Description The MT8889C is a monolithic DTMF transceiver with call progress filter fabricated in CMOS technology offering low power consumption and high reliability. D/A ∑ TONE Converters Tone Burst Gating Cct ...
Page 2
... MT8889C 20 1 IN+ VDD 2 19 IN- St/ ESt 17 VRef VSS D2 15 OSC1 OSC2 D0 7 TONE 13 8 IRQ/CP 12 R/W/WR 9 DS/ RS0 10 20 PIN PLASTIC DIP/SOIC Pin Description Pin # Name IN+ Non-inverting op-amp input IN- Inverting op-amp input Gain Select . Gives access to output of front end differential amplifier for connection of feedback resistor ...
Page 3
... The adaptive micro interface allows microcontrollers, such as the 68HC11, 80C51 and TMS370C50, to access the MT8889C internal registers. Input Configuration The input arrangement of the MT8889C provides a differential-input operational amplifier as well as a bias source (V ), which is used to bias the inputs at Ref V /2 ...
Page 4
... V DD MT8889C V St/GT ESt Guard Time Adjustment The simple steering circuit shown in Figure 5 is adequate for most applications. Component values are chosen according to the following inequalities (see Figure 7): ...
Page 5
... Design information for guard time adjustment is shown in Figure 6. The receiver timing is shown in Figure 7 with a description of the events in Figure 9. Call Progress Filter A call progress mode, using the MT8889C, can be selected allowing the detection of various tones, which identify the progress of a telephone call on the network. ...
Page 6
... GUARD TIME, TONE ABSENT. GTA DTMF Generator The DTMF transmitter employed in the MT8889C is capable of generating all sixteen standard DTMF tone pairs with low distortion and high accuracy. All frequencies are derived from an external 3.579545 MHz crystal. The sinusoidal waveforms for the ...
Page 7
... Table 2. Actual Frequencies Versus Standard Distortion Calculations The MT8889C is capable of producing precise tone bursts with minimal error in frequency (see Table 2). The internal summing amplifier is followed by a first- order lowpass switched capacitor filter to minimize harmonic components and intermodulation products. The total harmonic distortion for a single tone can be ...
Page 8
... Figures 19 and 20 are the timing diagrams for the Intel 8031/8051 (12 MHz) and 8085 (5 MHz) micro- controllers with multiplexed address and data buses. MT8889C The MT8889C latches in the state the OSC1 OSC2 falling edge of CS. When RD is high, Intel processor operation is selected. ...
Page 9
... The IRQ/CP pin is an open drain output and requires an external pull-up resistor (see Figure 13). MC6800/6802 A0-A15 VMA D0-D3 RW Φ2 (a) MC6809 A0-A15 Q E D0-D3 R/W Figure 12 a) & MT8889 Interface Connections for Various Intel and Motorola Micros Motorola RS0 R Table 3. Internal Register Functions b3 RSEL b3 ...
Page 10
... MT8889C BIT NAME b0 TOUT Tone Output Control. A logic high enables the tone output; a logic low turns the tone output off. This bit controls all transmit tone functions. b1 CP/DTMF Call Progress or DTMF Mode Select. A logic high enables the receive call progress mode; ...
Page 11
... L RS0 CS * Microprocessor based systems can inject undesirable noise into the supply rails. The performance of the MT8889C can be optimized by keeping noise on the supply rails to a minimum. The decoupling capacitor (C3) should be connected close to the device and ground loops should be avoided. MT8889C STATUS FLAG CLEARED Interrupt is inactive ...
Page 12
... MT8889C MMD6150 (or equivalent) TEST POINT 130 pF 24 kΩ Test load for D0-D3 pins A software reset must be included at the beginning of all programs to initialize the control registers after power up. The initialization procedure should be implemented 100ms after power up. Description: 1) Read Status Register 2) Write to Control Register ...
Page 13
... OHO 2.4 2.5 Ref -1.4 -6 2.0 4 -0.5 -3 MT8889C Min Max 6 V -0 -65 +150 1000 Max Units Test Conditions 5.25 V °C +85 MHz Units Test Conditions Note 9* 1.5 V Note load ...
Page 14
... Allowable capacitive load (GS) 10 Allowable resistive load (GS) 11 Common mode range Figures are for design aid only: not guaranteed and not subject to production testing. Characteristics are over recommended operating conditions unless otherwise stated. MT8889C AC Electrical Characteristics Characteristics Valid input signal levels R 1 ...
Page 15
... LOUT THD -35 ±0 3.5759 3.5795 3.5831 C t CLRF MT8889C ), unless otherwise stated. SS Max Units Conditions 500 Hz @ -25 dBm, Note -25 dBm Hz @ -25 dBm dBm ‡ Max Units Conditions unless otherwise stated. ...
Page 16
... MT8889C AC Electrical Characteristics Characteristics 1 DS/RD/WR clock frequency 2 DS/RD/WR cycle period 3 DS/RD/WR low pulse width 4 DS/RD/WR high pulse width 5 DS/RD/WR rise and fall time 6 R/W setup time 7 R/W hold time 8 Address setup time (RS0) 9 Address hold time (RS0) 10 Data hold time (read) 11 DS/RD to valid data delay (read) 12 Data setup time (write) ...
Page 17
... RWS 16 bytes of Addr t CSS CSS is from DS rising edge to CS rising edge t RWS t DDR t AS Addr Addr High Byte of Addr t CSS MT8889C t RWH t DDR t DHR ➀ DSW DHW ➀ t CSH t AH ➀ t CSH t RWH t DHR Data Data t ...
Page 18
... MT8889C ALE P0* (RS0, A0-A7 D0-D3 (Addr ALE.Addr * microprocessor pins Figure 19 - 8031/8051/8085 Read Timing Diagram ALE P0* (RS0, D0-D3 (Addr ALE.Addr * microprocessor pins Figure 20 - 8031/8051/8085 Write Timing Diagram 18 t CSS t t DDR AH A8-A15 Address t CSH t CSS t DSW t AH Data A0-A7 A8-A15 Address t CSH ...
Page 19
Package Outlines Notes Not to scale 2) Dimensions in inches 3) (Dimensions in millimeters) Plastic Dual-In-Line Packages (PDIP Suffix 8-Pin DIM Plastic Min Max A 0.210 (5.33) A 0.115 (2.92) ...
Page 20
Notes Not to scale 2) Dimensions in inches 3) (Dimensions in millimeters) Plastic Dual-In-Line Packages (PDIP Suffix 22-Pin DIM Plastic Min Max A 0.210 (5.33) A 0.125 (3.18) 0.195 ...
Page 21
16-Pin DIM Min Max Min A 0.093 0.104 0.093 (2.35) (2.65) (2.35) A 0.004 0.012 0.004 1 (0.10) (0.30) (0.10) B 0.013 0.020 0.013 (0.33) (0.51) (0.33) C 0.009 0.013 0.009 (0.231) (0.318) (0.231) D 0.398 0.413 ...
Page 22
Small Shrink Outline Package (SSOP Suffix Pin Notes: 1) Not to scale 2) Dimensions in inches 3) (Dimensions in millimeters) 4) Ref. JEDEC Standard M0-150/M0118 for 48 Pin 5) A ...
Page 23
Package Outlines Notes Not to scale 2) Dimensions in inches 3) (Dimensions in millimeters) Plastic Dual-In-Line Packages (PDIP Suffix 8-Pin DIM Plastic Min Max A 0.210 (5.33) A 0.115 (2.92) ...
Page 24
Notes Not to scale 2) Dimensions in inches 3) (Dimensions in millimeters) Plastic Dual-In-Line Packages (PDIP Suffix 22-Pin DIM Plastic Min Max A 0.210 (5.33) A 0.125 (3.18) 0.195 ...
Page 25
16-Pin DIM Min Max Min A 0.093 0.104 0.093 (2.35) (2.65) (2.35) A 0.004 0.012 0.004 1 (0.10) (0.30) (0.10) B 0.013 0.020 0.013 (0.33) (0.51) (0.33) C 0.009 0.013 0.009 (0.231) (0.318) (0.231) D 0.398 0.413 ...
Page 26
Small Shrink Outline Package (SSOP Suffix Pin Notes: 1) Not to scale 2) Dimensions in inches 3) (Dimensions in millimeters) 4) Ref. JEDEC Standard M0-150/M0118 for 48 Pin 5) A ...
Page 27
Package Outlines Notes Not to scale 2) Dimensions in inches 3) (Dimensions in millimeters) Plastic Dual-In-Line Packages (PDIP Suffix 8-Pin DIM Plastic Min Max A 0.210 (5.33) A 0.115 (2.92) ...
Page 28
Notes Not to scale 2) Dimensions in inches 3) (Dimensions in millimeters) Plastic Dual-In-Line Packages (PDIP Suffix 22-Pin DIM Plastic Min Max A 0.210 (5.33) A 0.125 (3.18) 0.195 ...
Page 29
16-Pin DIM Min Max Min A 0.093 0.104 0.093 (2.35) (2.65) (2.35) A 0.004 0.012 0.004 1 (0.10) (0.30) (0.10) B 0.013 0.020 0.013 (0.33) (0.51) (0.33) C 0.009 0.013 0.009 (0.231) (0.318) (0.231) D 0.398 0.413 ...
Page 30
Small Shrink Outline Package (SSOP Suffix Pin Notes: 1) Not to scale 2) Dimensions in inches 3) (Dimensions in millimeters) 4) Ref. JEDEC Standard M0-150/M0118 for 48 Pin 5) A ...
Page 31
North America - West Coast Tel: (858) 675-3400 Fax: (858) 675-3450 Tel: +65 333 6193 Fax: +65 333 6192 Information relating to products and services furnished herein by Zarlink Semiconductor Inc. trading as Zarlink Semiconductor or its subsidiaries (collectively “Zarlink”) ...