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| CMX641A DUAL SPM/SECURITY DETECTOR/GENERATOR D641A/5 January 2002 Provisional Information Features * * * * * * Two (12kHz/16kHz) SPM Detectors Selectable 12kHz/16kHz ASK Generator Selectable Tone Follower or Packet Mode 3-State Outputs Excellent Speech-Band Rejection Hardwired Control for Non-C Systems Selectable Bandwidth Limits and Stable Centre Frequency from a Standard Xtal Applications * * * * * * SPM for Pair-Gain Systems Payphone Security Applications Call Charge Applications in PBX and PABX Line Cards Out-of-Band Signalling Systems Low-Voltage FX/MX641 Replacement C Software-Programmable Secure Payphone Call Charging Apparatus 1.1 Brief Description The CMX641A is a low power, system selectable Dual Subscriber Pulse Metering (SPM) Detector - two detectors on a single chip - to indicate the presence on a telephone line of either 12kHz or 16kHz telephone call charge frequencies. The detection sensitivity, frequency and bandwidth are independently selectable for each channel, under C control, as is the frequency of the security tone generator, which may be ASK modulated by an external signal. The CMX641A is also backwards compatible with the FX641 and MX641 dual SPM detectors, whilst offering a lower (3.0V) operating voltage and power. The CMX641A has two modes of operation: (1) Fixed Bandwidth Operating state, in which the two channels are set to the same system frequency and sensitivity setting. Sensitivity and system frequency can be under either C or external control. This state is fully pin and function compatible with the FX641 and MX641. (2) Enhanced Features Operating state, under C control, in which each channel has independently controllable sensitivity, bandwidth and system frequency (12kHz or 16kHz). There is also a 12kHz/16kHz transmission tone which can be keyed on and off directly by a dedicated logic pin. This device is suitable for PBX/PABX line-card installations, payphone security applications and pair-gain systems. It is available in 24-pin plastic DIL and SOIC packages and consumes 1.2mA at 3V. (c) 2002 Consumer Microcircuits Limited Dual SPM/Security Detector/Generator CMX641A CONTENTS Section 1.1 1.3 1.4 1.5 Page Brief Description..................................................................................1 Signal List ............................................................................................4 External Components..........................................................................8 General Description.............................................................................9 1.5.1 Description of Blocks .............................................................9 1.5.2 Operating States ................................................................... 10 Application Notes .............................................................................. 15 1.6.1 Signal Input Configurations ................................................. 15 1.6.2 Crystal/Clock Distribution .................................................... 15 1.6.3 Channel 1 and Channel 2 Output Format ............................ 15 1.6.4 Setting Level Sensitivity via Input Serial Data Word........... 16 1.6.5 Setting Level Sensitivity via External Components ............ 17 1.6.6 Aliasing.................................................................................. 17 1.6.5 Settng Level Sensitivity via External Components ............. 18 Performance Specification................................................................ 19 1.7.1 Electrical Performance.......................................................... 19 1.7.2 Packaging.............................................................................. 24 1.6 1.7 (c) 2002 Consumer Microcircuits Limited 2 D/641A/5 Dual SPM/Security Detector/Generator CMX641A 1.2 Block Diagram Figure 1 Block Diagram (c) 2002 Consumer Microcircuits Limited 3 D/641A/5 Dual SPM/Security Detector/Generator CMX641A 1.3 Signal List Package P4 Signal Description Package D2 Pin No. 1 Pin No. 1 Name XTAL Type I/P The input of the on-chip oscillator for use with a 3.579545MHz Xtal in conjunction with the XTALN output; circuit components are on-chip. When using an Xtal input, the CLOCK OUT pin should be connected directly to the CLOCK IN pin. If an external clock input is employed at the CLOCK IN pin, the XTAL pin must be connected directly to VDD (see Figure 2). See Figure 4 for details of clock frequency distribution. The inverted output of the on-chip oscillator. The buffered output of the on-chip oscillator inverter. If a XTAL input is employed, this output should be connected directly to the CLOCK IN pin. This output can support up to 3 additional CMX641A microcircuits. See Figure 4 for details of clock distribution. The 3.579545MHz input to the internal clock dividers. If an externally generated clock pulse input is employed, XTAL input pin should be connected to VDD. For multi-chip output multiplexing; controls the state of both Ch1 and Ch2 outputs. When this input is placed high (logic `1') both outputs are set to a high impedance. When placed at logic `0' (low) both outputs are enabled. The digital output of the channel 2 SPM detector when enabled. The format of the signal at this pin, in common with CH1 OP is selectable to either `Tone Follower' or `Packet mode' via the OP SELECT pin. Logic `0' (low) when tone is detected. The digital output of the channel 1 SPM detector when enabled. The format of the signal at this pin, in common with CH2 OP is selectable to either `Tone Follower' or `Packet mode' via the OP SELECT pin. Logic `0' (low) when tone is detected. A bias line for the internal circuitry, held at 1/2VDD. This pin must be decoupled to VSS by a capacitor mounted close to the device pins. 2 3 2 3 XTALN CLOCK OUT O/P O/P 4 4 CLOCK IN I/P 5 5 OP ENABLEN I/P 6 6 CH2 OP O/P 7 7 CH1 OP O/P 8 8 VBIAS O/P (c) 2002 Consumer Microcircuits Limited 4 D/641A/5 Dual SPM/Security Detector/Generator CMX641A Package D2 Pin No. 9 Package P4 Pin No. 9 Signal Description Name CH1 AMP OUT Type O/P The output of the Channel 1 input amplifier. See Figures 2 and 3. The negative input to the Channel 1 input amplifier. See Figures 2 and 3. The positive input to the Channel 1 Input amplifier. See Figures 2 and 3. The negative supply rail (ground). This pin selects the device application. When (logic `0') the CMX641A is in Fixed Bandwidth Operating state. When (logic `1') it is in Enhanced Features Operating state. This pin has an internal pulldown resistor onchip so that when unconnected, the default state is Fixed Bandwidth Operating state. 10 10 CH1 AMP IN (-) I/P 11 12 13 11 12 13 CH1 AMP IN (+) VSS ENHANCED FEATURES I/P POWER I/P 14 15 16 14 15 16 CH2 AMP IN (+) CH2 AMP IN (-) CH2 AMP OUT I/P I/P O/P The positive input to the Channel 2 input amplifier. See Figures 2 and 3. The negative input to the Channel 2 input amplifier. See Figures 2 and 3. The output of the Channel 2 input amplifier. See Figures 2 and 3. A logic input to set the Channel 1 and Channel 2 output format. When high (logic `1'), the outputs are in the Tone Follower mode; when low (logic `0'), the outputs are in Packet mode. 17 17 OP SELECT I/P (c) 2002 Consumer Microcircuits Limited 5 D/641A/5 Dual SPM/Security Detector/Generator CMX641A Package D2 Package P4 Signal Description Pin No. 18 Pin No. 18 Name Type This is a dual function pin differing between Fixed Bandwidth Operating state and Enhanced Features Operating state. This input has an internal pullup resistor on chip so that the default (open circuit) modes are Fixed Sensitivity (Fixed Bandwidth Operating state) and No Tone (Enhanced Features Operating state). PRESET LEVEL (Fixed Bandwidth Operating state). A logic input to set the sensitivity mode of the CMX641A. When high (logic `1'), both channels are in the Fixed Sensitivity mode. The external components govern the input sensitivity; the SYSTEM SELECT pin selects 12kHz or 16kHz operation. When low logic (logic `0'), the system frequency and sensitivity of both channels are in the Controlled Sensitivity mode. Device sensitivities and system selection are via the CHIP SELECTN/SERIAL DATA/SERIAL CLOCK inputs. (Enhanced Features Operating state). A logic input used to ASK modulate the TONE OP pin. A logic high corresponds to no tone and a logic low to tone. TONE ASK 19 20 21 19 20 21 CHIP SELECTN SERIAL CLOCK SERIAL DATA I/P I/P I/P The serial data pins for use in data loading when using the CMX641A in Controlled Sensitivity mode (Fixed Bandwidth Operating state) or in Enhanced Features Operating state (See Figures 7 & 8). When the device is in Fixed Sensitivity mode (Fixed Bandwidth Operating state), these pins should be connected to VSS or VDD. (c) 2002 Consumer Microcircuits Limited 6 D/641A/5 Dual SPM/Security Detector/Generator CMX641A Package D2 Package P4 Signal Description Pin No. 22 Pin No. 22 Name Type This is a dual function pin differing between Fixed Bandwidth Operating state and Enhanced Features Operating state. This pin has an internal pullup on chip so that the default modes are Detect 12kHz (Fixed Bandwidth Operating state, Fixed Sensitivity mode) or TX Tone = 12kHz (Enhanced Features Operating state). SYSTEM SELECT I/P (Fixed Bandwidth Operating state). In the Fixed Sensitivity mode, this pin selects the system frequency. High (logic `1') = 12kHz; Low (logic `0') = 16kHz. In the Controlled Sensitivity mode, this pin may be tied to VDD or may be left unconnected. Future functions of this pin, if tied low, are reserved. (Enhanced Features Operating state). This pin selects 12kHz or 16kHz as the transmit frequency at the TONE OP pin. When high (logic `1'), the Tx tone at the TONE OP pin is 12kHz. When low (logic `0'), the Tx tone is 16kHz. TX TONE SELECT I/P 23 23 TONE OP O/P Operates in Enhanced Features Operating state only. A 12kHz or 16kHz transmit tone appears at this pin under the control of the TONE ASK and the TX TONE SELECT pin. In Fixed Bandwidth Operating state, this pin is unused and should be left unconnected. 24 24 VDD POWER The positive supply rail. Critical levels and voltages within the CMX641A are dependent upon this supply. This pin should be decoupled to VSS by a capacitor mounted close to the device pins. Notes: I/P O/P BI = = = Input Output Bidirectional (Note also that SYSTEM SELECT/TX TONE SELECT, ENHANCED FEATURES and PRESET LEVEL/TONE ASK pins should never be simultaneously driven low - to VSS). (c) 2002 Consumer Microcircuits Limited 7 D/641A/5 Dual SPM/Security Detector/Generator CMX641A 1.3 External Components Figure 2 Recommended External Components Fixed Bandwidth Operating State, Controlled Sensitivity Mode and Enhanced Features Operating State R1 R2 R3 R4 R5 R6 R7 R8 68k 68k 750k 750k 68k 68k 750k 750k 1% 1% 1% 1% 1% 1% 1% 1% C1 C2 C3 C4 C5 C6 X1 1.0F 1.0F 270pF 270pF 270pF 270pF 3.579545MHz 20% 20% 5% 5% 5% 5% Fixed Bandwidth Operating State, Fixed Sensitivity Mode In this mode input amplifier components are chosen to set the required sensitivity of the CMX641A. (See section 1.6.5). Note that when calculating/selecting gain components, R3, R4, R7 and R8 should always be greater than or equal to 100k. Particular attention should be paid to decoupling VDD and keeping the power, ground and signal lines free from unnecessary noise. Telephone systems may have unusually high dc and ac voltages present on the line, as either differential or common mode signals. If the CMX641A is part of a host system which does not have its own input protection, then protection diodes must be added to both signal inputs (+ and -) so that the voltage on any pin is limited to within VSS - 0.3V and Vdd + 0.3V. The breakdown voltage of capacitors and the peak inverse voltage of diodes must be sufficient to withstand the sum of the dc and peak-peak ac voltages applied. (c) 2002 Consumer Microcircuits Limited 8 D/641A/5 Dual SPM/Security Detector/Generator CMX641A 1.5 General Description 1.5.1 Description of Blocks Crystal Oscillator and Clock Dividers These circuits derive the internal logic clocks, decode frequencies and transmit frequencies by frequency division of a reference frequency which may be generated by the on-chip crystal oscillator or applied from an external source. If the on-chip oscillator is used, a 3.579545MHz crystal should be connected across the XTAL and XTALN pins and CLOCK IN pin should be connected to CLOCK OUT. All other oscillator components are onchip. If an external clock source is used then it should be applied to the CLOCK IN pin and the XTAL pin connected to VDD. Input Operational Amplifiers The input signals are input to the CMX641A via these amplifiers. In Controlled Sensitivity mode of the Fixed Bandwidth Operating state, or when in Enhanced Features Operating state, the external components shown in Figure 2 should be used. When used in the Fixed Sensitivity mode of the Fixed Bandwidth Operating state, external gain setting components should be calculated using Figure 6. In Enhanced Features Operating state, with the channels set to 12kHz/16kHz detect, the channel 2 amplifier can optionally be isolated and may be used as an independent amplifier. In this case, both channels are internally connected to amplifier 1. The amplifiers can be connected as differential mode or single ended, depending upon the application (see Figure 3). SPM Tone Bandpass Filter These are tone bandpass/audio reject filters automatically centred on the system frequency (12kHz or 16kHz) being detected. When in Controlled Sensitivity mode of the Fixed Bandwidth Operating state or when in Enhanced Features Operating state, the level sensitivity of the device is set by adjusting the passband gain of these filters. When in Fixed Sensitivity mode of the Fixed Bandwidth Operating state, their gain is constant so that the internal device sensitivity is also constant. Level Detection and Pulse Generator Circuits The outputs from the bandpass filters are input to these circuits which perform the signal level discrimination function for the CMX641A. Signals which fulfil the system level requirements cause a stream of digital pulses, one per 32 cycles of input signal, to be generated. These pulses are sent to the period measurement circuitry. Period Measurement Logic This digital circuit block inputs the stream of pulses from the level detection circuits and measures their repetition rate against a predetermined maximum and minimum. Because each pulse from the level detect circuit occur once per 32 cycles of input signal, this has the effect of averaging the input signal period over this number of cycles. A valid SPM tone is recognised when 3 successive correctly spaced pulses are received. If the Tone Follower output format is selected, this causes a signal to appear immediately at the relevant channel output signifying receipt of a valid SPM signal. Depending upon the frequency, within the legal bandwidth, received, the CMX641A should respond within 10-15ms (see section 1.7 and Figure 5). Tone Length Logic This digital circuit block is used when Packet output format is selected. Its output responds when 40ms of valid tone is received within any 48ms window, signifying receipt of a valid packet of SPM tone (see section 1.7). Once the CMX641A has responded, within any 48ms window, 40ms of no-tone, or of tone outside the chosen bandwidth or below the level threshold will cause the output to derespond. (See Figure 5). Tx Tone Generator and Shaping Filter These are active in Enhanced Features Operating state only. They generate a low distortion sinewave for transmission by the CMX641A as an SPM security tone. The output at the TONE OP pin is (c) 2002 Consumer Microcircuits Limited 9 D/641A/5 Dual SPM/Security Detector/Generator CMX641A modulated on-off by the TONE ASK pin. A high (logic `1') selects no tone and low (logic `0') selects tone. The transmission frequency is selected by the TX TONE SELECT pin. A high (logic `1') selects 12kHz and a low (logic `0') selects 16kHz. (See Table 7). Output Select Circuits These drive the output logic pins `Channel 1 Output' (CH1OP) and `Channel 2 Output' (CH2OP). These outputs can be made high impedance by setting the OP ENABLEN pin high. When enabled, the format at these pins is either Tone Follower or Packet. (See Table 1). A high (logic `1') indicates the tone is absent, a low (logic `0') indicates the tone is present. 1.5.2 Operating States There are two operating states for the CMX641A: Fixed Bandwidth and Enhanced Features. Fixed Bandwidth Operating State (ENHANCED FEATURES pin = logic `0' or open circuit) In this operating state, the CMX641A is function and pin compatible with the FX641 and MX641. It is a dual-channel SPM detector with both detectors set to the same level sensitivity and system frequency (12kHz or 16kHz) via a 6-bit serial data word from a host Controller. Alternatively, for non Controller systems, the sensitivity and system frequency can be set via external components and logic inputs. In this state, the decode bandwidth of both channels is internally fixed at 1.5% of the nominal centre frequency. Enhanced Features Operating State (ENHANCED FEATURES pin = logic `1') In this state, the following features of the two SPM detector channels are independently controllable via a 16-bit serial data word from a host Controller. (i) The decode bandwidths, which can be set to 1.5%, 3%, 5% and 7.5% of the nominal tone frequency. The level sensitivity. The system frequencies, which have one of three possible settings: 12kHz & 12kHz, 16kHz & 16kHz, or 12kHz for Channel 2 and 16kHz for Channel 1. (ii) (iii) When the two channels are set to 12kHz/16kHz mode, there is an option to disconnect the channel 2 decode path from its own amplifier and have both channels connected to the channel 1 input. The channel 2 amplifier is then independent and available for some other use, say gain setting or filtering, within the host circuitry. There is also a transmit tone, selectable to 12kHz or 16kHz, which is ASK modulated via a logic input pin. Features Common to both Operating States In both states, three output formats are available for the channel output pins. These output formats are selectable via the logic input pins OP SELECT and OP ENABLEN. (See Table 1). (i) In Tone Follower mode, the logic output has very short response and deresponse times so that it forms an `envelope' of the input tone. Host systems will decide whether the received signal fulfils the system tone pulse length requirements. (ii) In Packet mode, the channel output only responds after 40ms of received continuous tone. The CMX641A then ignores the erroneous 20ms on, 20ms off "ringing" pattern which occurs on some telephone lines. The deresponse time is also 40ms, so that the decode output pin forms a delayed envelope of the input tone and host systems can decide, as in the Tone Follower mode, whether the received tone duration fulfils local system requirements. (iii) (c) 2002 Consumer Microcircuits Limited 10 D/641A/5 Dual SPM/Security Detector/Generator CMX641A (iii) The outputs can be set to a high impedance state for device multiplexing. OP ENABLEN 0 0 1 OP SELECT 0 1 X CH1 & CH2 OP FORMAT Packet Mode Tone Follower Mode High Z Table 1 Selection of Output Format via OP ENABLEN and OP SELECT pins 1.5.2.1 Fixed Bandwidth Operating State (ENHANCED FEATURES pin = logic `0' or Open Circuit) This state is selected by leaving pin 13 open circuit. In this state, the CMX641 has full pin, function and software compatibility with the FX641 and MX641. There are two operating modes: Controlled and Fixed Sensitivity. (c) 2002 Consumer Microcircuits Limited 11 D/641A/5 Dual SPM/Security Detector/Generator CMX641A Controlled Sensitivity Mode (PRESET LEVEL pin = logic `0') This mode allows the sensitivity to be set from a Controller via a 6-bit serial data input. This same serial input also sets operation (bit 0) for either 12kHz or 16kHz systems. Both channels are set identically. 12kHz System 16kHz System Bit D0 = `1' Bit D0 = `0' Maximum Nominal Minimum Maximum Nominal Minimum Bandpass Sensitivity Sensitivity Sensitivity Sensitivity Sensitivity Sensitivity Filter Gain dB(ref.) dB(ref.) dB(ref.) dB(ref.) dB(ref.) dB(ref.) (dB) 0 -16.2 -17.5 -18.8 -16.9 -18.2 -19.5 1.0 -17.2 -18.5 -19.8 -17.9 -19.2 -20.5 2.0 -18.2 -19.5 -20.8 -18.9 -20.2 -21.5 3.0 -19.2 -20.5 -21.8 -19.9 -21.2 -22.5 4.0 -20.2 -21.5 -22.8 -20.9 -22.2 -23.5 5.0 -21.2 -22.5 -23.8 -21.9 -23.2 -24.5 6.0 -22.2 -23.5 -24.8 -22.9 -24.2 -25.5 7.0 -23.2 -24.5 -25.8 -23.9 -25.2 -26.5 8.0 -24.2 -25.5 -26.8 -24.9 -26.2 -27.5 9.0 -25.2 -26.5 -27.8 -25.9 -27.2 -28.5 10.0 -26.2 -27.5 -28.8 -26.9 -28.2 -29.5 11.0 -27.2 -28.5 -29.8 -27.9 -29.2 -30.5 12.0 -28.2 -29.5 -30.8 -28.9 -30.2 -31.5 13.0 -29.2 -30.5 -31.8 -29.9 -31.2 -32.5 14.0 -30.2 -31.5 -32.8 -30.9 -32.2 -33.5 15.0 -31.2 -32.5 -33.8 -31.9 -33.2 -34.5 16.0 -32.2 -33.5 -34.8 -32.9 -34.2 -35.5 17.0 -33.2 -34.5 -35.8 -33.9 -35.2 -36.5 18.0 -34.2 -35.5 -36.8 -34.9 -36.2 -37.5 19.0 -35.2 -36.5 -37.8 -35.9 -37.2 -38.5 20.0 -36.2 -37.5 -38.8 -36.9 -38.2 -39.5 21.0 -37.2 -38.5 -39.8 -37.9 -39.2 -40.5 22.0 -38.2 -39.5 -40.8 -38.9 -40.2 -41.5 23.0 -39.2 -40.5 -41.8 -39.9 -41.2 -42.5 24.0 -40.2 -41.5 -42.8 -40.9* -42.2* -43.5* 25.0 -41.2 -42.5 -43.8 -41.9* -43.2* -44.5* 26.0 -42.2 -43.5 -44.8 -42.9* -44.2* -45.5* 27.0 -43.2 -44.5 -45.8 -43.9* -45.2* -46.5* These states should never be used. If sensitivities of this order are required, (e.g. the Swedish Rural SPM specification, it is recommended that the Controlled sensitivity setting is set to 20dB (10100) and external components selected to set the Input Amp gain to a higher figure. Serial Data Bits D5-D1 00000 00001 00010 00011 00100 00101 00110 00111 01000 01001 01010 01011 01100 01101 01110 01111 10000 10001 10010 10011 10100 10101 10110 10111 11000 11001 11010 11011 11100 11101 11110 11111 Table 2 Controlled Sensitivity Setting Information in Fixed Bandwidth Operating State The figures in Table 2 assume: 1. The recommended amplifier components (see figure 2) are employed. 2. The applied VDD is 5.0V. 0dB(ref.) = 775Vrms. 3. Signal sensitivity is proportional to VDD. However, the 16kHz settings marked * (11000 to 11011) are allowed for 5V operation only. 4. Bandwidth setting 00 (1.5%), 01 (3/0%) or 10 (5.0%) is selected. Add 0.5dB to upper figure if bandwidth setting 11 (7.5%) is selected. Table 2 shows the serial data input to produce the required sensitivity. Minimum, nominal and maximum sensitivity figures are provided to make complete allowance for internal circuit offsets and component tolerances. The gain of each bandpass filter, and hence the device sensitivity, is adjusted by the applied serial bits D1 to D5. The system frequency is selected by bit D0 (`1' = 12kHz; `0' = 16kHz). Data is loaded bit 5 (D5) first (See Figure 7). (c) 2002 Consumer Microcircuits Limited 12 D/641A/5 Dual SPM/Security Detector/Generator CMX641A In controlled sensitivity mode, the `will detect' bandwidth is internally set at 1.5% i.e. in 12kHz mode, the CMX641A will detect frequencies between 11.82kHz to 12.18kHz inclusive. In 16kHz mode, it will detect frequencies between 15.76kHz to 16.24kHz inclusive. The `will not detect' bandedges are 4% so that, in 12kHz mode, the CMX641A will not respond to frequencies of 11.52kHz or lower or to 12.48kHz or higher. In 16kHz, the equivalent frequencies are 15.36kHz and 16.64kHz. Fixed Sensitivity Mode (PRESET LEVEL pin = logic `1' or open circuit) In this mode, the sensitivity of each channel is set by correct selection of external components around each Channel input amplifier. See section 1.6.5 and Figure 6 for a method of selecting amplifier gain and components to meet a particular sensitivity requirement. 1.5.2.2 Enhanced Features Operating State (ENHANCED FEATURES pin = logic `1') This state is selected by tying pin 23 to logic 1. It has individually programmable tone detect bandwidths, signal sensitivities and a 12kHz or 16kHz ASK keyed transmission tone. Control of the CMX641A in this state is via a 16-bit serial data word, as shown in Table 3. Data is loaded bit 15 (D15) first (See Figure 8). Channel 2 D15-D11 D10-D9 Level Sensitivity set Bandwidth as in Table 2 Control Above Channel 1 D8-D4 D3-D2 Level Sensitivity set Bandwidth as in Table 2 Control Above System Select D1-D0 12kHz or 16kHz Select Table 3 16-Bit Serial Input Word in Enhanced Features Operating State Channel Level Sensitivities These are independently programmable via bits D15-D11 for channel 2 and bits D8-D4 for channel 1. The 5-bit coding and sensitivities are as given in Table 2 above for the Fixed Bandwidth Operating State. For example, if D15-D11 = `01001' and D8-D4 = `00101', both in 12kHz mode, then channel 2 would have a nominal sensitivity of -26.5dB(ref) and channel 1 would have a nominal sensitivity of -22.5dB(ref). Will Detect and Will Not Detect Bandwidths There are four individually programmable bandwidths per channel. The `will detect' bandwidth can be programmed to 1.5%, 3%, 5% or 7.5%. The corresponding `will not detect' band edges are 4%, 5.5%, 7.5% and 10%. Bits D10 and D9 control channel 2 and bits D3 and D2 control channel 1. D10-D9 (Channel 2) D3-D2 (Channel 1) 00 01 10 11 Lower Will Not Detect 11.52kHz (-4%) 11.34kHz (-5.5%) 11.10kHz (-7.5%) 10.80kHz (-10.0%) Lower Will Detect 11.82kHz (-1.5%) 11.64kHz (-3.0%) 11.40kHz (-5.0%) 11.10kHz (-7.5%) Upper Will Detect 12.18kHz (+1.5%) 12.36kHz (+3.0%) 12.60kHz (+5.0%) 12.90kHz (+7.5%) Upper Will Not Detect 12.48kHz (+4%) 12.66kHz (+5.5%) 12.90kHz (+7.5%) 13.20kHz (+10.0%) Table 4 Setting 12kHz Will Detect/Will Not Detect Bandwidths in Enhanced Features Operating State (c) 2002 Consumer Microcircuits Limited 13 D/641A/5 Dual SPM/Security Detector/Generator CMX641A D10-D9 (Channel 2) D3-D2 (Channel 1) 00 01 10 11 Lower Will Not Detect 15.36kHz (-4.0%) 15.12kHz (-5.5%) 14.80kHz (-7.5%) 14.40kHz (-10.0%) Lower Will Detect 15.76kHz (-1.5%) 15.52kHz (-3.0%) 15.20kHz (-5.0%) 14.80kHz (-7.5%) Upper Will Detect 16.24kHz (+1.5%) 16.48kHz (+3.0%) 16.80kHz (+5.0%) 17.20kHz (+7.5%) Upper Will Not Detect 16.64kHz (+4.0%) 16.88kHz (+5.5%) 17.20kHz (+7.5%) 17.60kHz (+10.0%) Table 5 Setting 16kHz Will Detect/Will Not Detect Bandwidths in Enhanced Features Operating State The CMX641A will always respond to valid inputs between the Lower `Will Detect' and Upper `Will Detect' frequencies inclusive. It will not respond to frequencies at or below the Lower `Will Not Detect' or at or above the Upper `Will Not Detect'. The response and deresponse times will depend upon the output format chosen, i.e. Tone Follower or Packet output. System Select Bits D1 and D0 select the operating frequencies of the CMX641A in Enhanced Features Operating State. D1-D0 00 01 10 Channel 1 Output Detects 16kHz Detects 16kHz Detects 16kHz Channel 2 Output Detects 16kHz Detects 12kHz Detects 12kHz Amp 1 Input to channel 1 Input to channel 1 Input to channel 1&2 Input to channel 1 Amp 2 Input to channel 2 Input to channel 2 Available as independent amplifier Input to channel 2 11 Detects 12kHz Detects 12kHz Table 6 Setting System Frequencies in Enhanced Features Operating State The operating frequencies can be set in four ways as shown in Table 6. In three of the four cases, Amplifier 1 is the input to channel 1 and Amplifier 2 is the input to channel 2. However, when bits D1-D0 = `10', both channels take their input from Amplifier 1. This makes Amplifier 2 available for independent use, perhaps as a gain or filter block. However, it should be noted that each channel will detect its system frequency only in the absence of the other. The device is not designed to be immune to the presence of the other tone. Each channel will function correctly when either 12kHz or 16kHz, but not both, is present. ASK Tone Output This is output from the TONE OP pin under the control of the TONE ASK input and the TX TONE SELECT pins. The TONE ASK pin keys the transmit tone on-off. A logic high corresponds to no tone and logic low to tone. The output frequency is selected by the TX TONE SELECT pin. A logic high selects 12kHz and logic low selects 16kHz. (See Table 7). The tone output is ramped up to its maximum level and down to nil output with time constants of TBD and TBD respectively. TONE ASK 0 0 1 TX TONE SELECT 0 1 X TONE OP 16kHz 12kHz BIAS Table 7 Selecting Transmission Tone in Enhanced Features Mode (c) 2002 Consumer Microcircuits Limited 14 D/641A/5 Dual SPM/Security Detector/Generator CMX641A 1.6 Application Notes 1.6.1 Signal Input Configurations Figure 3 shows how the input amplifiers can be connected as differential mode or common mode amplifiers, according to the application. Figure 3 Example Input Configurations 1.6.2 Crystal/Clock Distribution The CMX641A requires a 3.579545MHz crystal or an external clock pulse input. With the exception of the crystal, all oscillator components are incorporated on chip. If a crystal is employed, the Clock Out pin should be connected directly to the Clock In pin. To reduce component and layout complexity the clock requirements of up to 3 additional CMX641A microcircuits may be supplied from a crystal driven CMX641A acting as the master system clock. With reference to Figure 4, the clock should be distributed as illustrated and the XTAL pins of the driven devices should be connected directly to VDD. Note that the maximum load on the master Clock Out pin should not be exceeded. Figure 4 Example of Clock Distribution and 8-Channel Output Multiplexing 1.6.3 Channel 1 and Channel 2 Output Format Figure 5 illustrates the two output formats: Tone Follower mode and Packet mode. (c) 2002 Consumer Microcircuits Limited 15 D/641A/5 Dual SPM/Security Detector/Generator CMX641A Figure 5 Tone Follower and Packet Mode Outputs 1.6.4 Setting Level Sensitivity via the Input Serial Data Word The serial data word input is used to set the device sensitivity in the Controlled Sensitivity mode of the Fixed Bandwidth Operating state and in the Enhanced Features Operating state. In Controlled Sensitivity mode of the Fixed Bandwidth Operating state, the CMX641A operates identically to the FX641 and MX641. The input word is 6 bits and Table 2 lists the device sensitivities vs input codes. In the Enhanced Features Operating State, channel 1's sensitivity is controlled by applying the codes in Table 2 to bits D15-D11. Channel 2's sensitivity is controlled by applying these codes to bits D8-D4. Example: Suppose the CMX641A is required to work in a system in which 16kHz signals, at or above -22dB(ref) must be detected and signals at or below -27dB(ref) must not be detected. Reference to Table 2 shows that bandpass filter gain settings of 6dB or 7dB will meet this level specification. Thus in Fixed Bandwidth Operating State and Controlled Sensitivity Mode: Inputting D5-D0 = '001100' or `001110' (See Table 2) will set both channels to meet this specification. Selecting `001100' makes both channels' minimum `Will Detect' level -22.9dB(ref) and its maximum `Will Not Detect' level -25.5dB(ref). This means that the detection threshold of any device will lie between these two levels. In Enhanced Features Operating State Channel 2: Inputting D15-D11 = `00110' or `00111' (See Tables 2 & 3) and D1-D0 = `00' (See Table 6) will programme channel 2 to meet this level specification. Selecting `00111' makes the channel 2 minimum `Will Detect' level -23.9dB(ref) and its maximum `Will Not Detect' level -26.5dB(ref). This means that Channel 2's detection threshold will lie between these two levels. In Enhanced Features Operating State Channel 1: Inputting D8-D4 = `00110' or `00111' (See Tables 2 & 3) and D1-D0 = `00', `01' or `10' (See Table 6) will programme channel 1 to meet this level specification. Selecting `00110' makes the CMX641A minimum `Will Detect' level -22.9dB(ref) and its maximum `Will Not Detect' level -25.5dB(ref). This means that channel 1's detection threshold will lie between these two levels. The two channels may be set to identical detection thresholds, if desired. (c) 2002 Consumer Microcircuits Limited 16 D/641A/5 Dual SPM/Security Detector/Generator CMX641A 1.6.5 Setting Level Sensitivity via External Components In Fixed Bandwidth Operating state, Fixed Sensitivity mode, the sensitivities of the two channels are set by the correct selection of the components around the Channel Input Amplifiers. Input Gain Calculation: The input amplifiers, with their external circuitry, are available to set the sensitivity of the CMX641A to conform to the user's national level specification with regard to `Must' and `Must-Not' detect signal levels. With reference to the graph in Figure 6, the following steps will assist in the determination of the required gain/attenuation. Step 1 Draw two horizontal lines from the Y-axis {Signal Level dB(ref)} The upper line will represent the required `Must' decode level The lower line will represent the required `Must-Not' decode level. Step 2 Mark the intersection of the upper horizontal line and the upper sloping line; drop a vertical line from this point to the X-axis {Amplifier Gain (dB)}. The point where the vertical line meets the X-axis will indicate the MINIMUM Input gain required for reliable decoding of valid signals. Step 3 Mark the intersection of the lower horizontal line and the lower sloping line; drop a vertical line from this point to the X-axis. The point where the vertical line meets the X-axis will indicate the MAXIMUM allowable Input amp gain. Input signals at or below the `Must-Not' decode level will not be detected as long as the amplifier gain is no higher than this level. Step 4 Refer to the gain components shown in Figure 2. The user should calculate and select external components (R1/R3/C3, R2/R4/C4 and R5/R7/C5, R6/R8/C6) to provide amplifier gains within the limits obtained in Steps 2 and 3. Component tolerances should not move the gain figure outside these limits. Resistors R3, R4, R7 and R8 should always be greater than or equal to 100k. It is recommended that the designed gain is near the centre of the calculated range. Note that the device sensitivity is directly proportional to the applied power supply (VDD). The graph in Figure 6 is for the calculation of input gain components for the CMX641A using a VDD of 5.0 (0.1) volts. Subtract 4.44dB from the amplifier gain for operation at 3.0V volts. 1.6.6 Aliasing Due to the switched capacitor filters employed in the CMX641A, care should be taken to avoid any aliasing effects by removing all frequencies above 579.390kHz (16kHz mode) or 434.543kHz (12kHz mode). This can be achieved by adding bypass capacitors across R3, R4, R7 and R8, setting the -3dB breakpoint of each resistor-capacitor combination such that there is sufficient attenuation at the alias frequency and negligible effect at the desired SPM frequency. (c) 2002 Consumer Microcircuits Limited 17 D/641A/5 Dual SPM/Security Detector/Generator CMX641A Figure 6 Input Gain Calculation Graph for use in the Fixed Sensitivity Mode of the Fixed Bandwidth Operating State (c) 2002 Consumer Microcircuits Limited 18 D/641A/5 Dual SPM/Security Detector/Generator CMX641A 1.7 1.7.1 Performance Specification Electrical Performance 1.7.1.1 Absolute Maximum Ratings Exceeding these maximum ratings can result in damage to the device. Min. -0.3 -0.3 -30 -20 Max. 7.0 VDD + 0.3 +30 +20 Units V V mA mA Supply (VDD - VSS) Voltage on any pin to VSS Current into or out of VDD and VSS pins Current into or out of any other pin D2/P4 Package Total Allowable Power Dissipation at Tamb = 25C ... Derating Storage Temperature Operating Temperature Min. -55 -40 Max. 800 13 +125 +85 Units mW mW/C C C 1.7.1.2 Operating Limits Correct operation of the device outside these limits is not implied. Notes Supply (VDD - VSS) Operating Temperature Xtal Frequency Min. 2.7 -40 3.558918 Max. 5.5 +85 3.589368 Units V C MHz (c) 2002 Consumer Microcircuits Limited 19 D/641A/5 Dual SPM/Security Detector/Generator CMX641A 1.7.1.3 Operating Characteristics For the following conditions unless otherwise specified: Xtal Frequency = 3.579545MHz, Audio Level 0dB(ref) = 775Vrms. Noise Bandwidth = 50kHz, VDD = 3.0V to 5.5V, Tamb = - 40C to +85C. System Setting = 12kHz or 16kHz. Notes DC Parameters IDD Input/Output Parameters Clock Out Load Logic Inputs Input logic "1" level Input logic "0" level Input leakage current (Vin = 0 to VDD) Input capacitance Input current (Vin =0) Channel Outputs Output logic "1" level (1OH = 120A) (Enabled) Output logic "0" level (1OL = 360A) (Enabled) Off state leakage current (High Z output) Mode Change Time Tone Follower Mode Response and De-Response time Packet Mode Response and De-Response time 1 2 Min. Typ. 2.0 1.2 Max. 5.0 3.0 15 80% 3 4 -5.0 7.5 -15.0 20% +5.0 Units mA mA pF VDD VDD A pF A 5 5 6 7 8,9,10,11, 12,13,14,15 8,9,10,11, 12 90% -5.0 10% 5.0 500 15.0 VDD VDD A ns ms 40.0 48.0 ms Input Amplifiers Input impedance (at 100Hz) Open Loop voltage gain (I/P = 1mVrms at 100Hz) Common Mode range Input Signal Level Output Impedance (open loop) Overall Performance 12kHz Detect Bandwidth 12kHz Detect Bandwidth 12kHz Detect Bandwidth 12kHz Detect Bandwidth 12kHz Not Detect Frequencies (below 12kHz) 12kHz Not Detect Frequencies (below 12kHz) 12kHz Not Detect Frequencies (below 12kHz) 12kHz Not Detect Frequencies (below 12kHz) 12kHz Not Detect Frequencies (above 12kHz) 12kHz Not Detect Frequencies (above 12kHz) 12kHz Not Detect Frequencies (above12kHz) 12kHz Not Detect Frequencies (above12kHz) 10.0 500 10% 6.0 90% 100% M V/V VDD VDD k 8,12 8,13 8,14 8,15 8,12 8,13 8,14 8,15 8,12 8,13 8,14 8,15 11.82 11.64 11.40 11.10 12.18 12.36 12.60 12.90 11.52 11.34 11.10 10.80 12.48 12.66 12.90 13.20 kHz kHz kHz kHz kHz kHz kHz kHz kHz kHz kHz kHz (c) 2002 Consumer Microcircuits Limited 20 D/641A/5 Dual SPM/Security Detector/Generator CMX641A 1.7.1.3 Operating Characteristics (continued) Notes 8,12 8,13 8,14 8,15 8,12 8,13 8,14 8,15 8,12 8,13 8,14 8,15 Min. 15.76 15.52 15.20 14.80 Typ. Max. 16.24 16.48 16.80 17.20 15.36 15.12 14.80 14.40 Units kHz kHz kHz kHz kHz kHz kHz kHz kHz kHz kHz kHz kHz dB 16kHz Detect Bandwidth 16kHz Detect Bandwidth 16kHz Detect Bandwidth 16kHz Detect Bandwidth 16kHz Not-Detect Frequencies (below 16kHz) 16kHz Not-Detect Frequencies (below 16kHz) 16kHz Not-Detect Frequencies (below 16kHz) 16kHz Not Detect Frequencies (below 16kHz) 16kHz Not-Detect Frequencies (above 16kHz) 16kHz Not-Detect Frequencies (above 16kHz) 16kHz Not-Detect Frequencies (above 16kHz) 16kHz Not-Detect Frequencies (above 16kHz) Level Sensitivity Level Sensitivity set by input serial data (Bandwidth settings 00,01 or 10) 16.64 16.88 17.20 17.60 1,8,9,10 12,13,14 16,17,20 1,8,9,10, 15,16,17,20 1,8,9, 18,19,20 1,8,10, 18,19 2,8,10 18,19 2.6 1.6 0.6 (Bandwidth setting 11) 3.2 1.9 0.6 dB Level Sensitivity set by external components (5V, 12kHz operation) (5V, 16kHz operation) -25.4 -26.4 -27.4 dB -25.4 -26.4 -27.4 dB (3V, 16kHz operation Signal Quality Requirements for Correct Operation Signal to Noise Ratio (Amp input) Signal to Voice Ratio (Amp input) Signal to Voice Ratio (Amp output) -30.4 -31.4 -32.4 dB 9,21, 22,23 9,21, 22,24 9,21 23,24 22.0 -36.0 -1.0 20.0 -40.0 -27.0 dB dB dB Tx Output Output Impedance Output Frequency Output Frequency Signal Level Output Distortion Response/De-response Times Rise/Fall Times 29 25 26 1 25,27 26,27 25,28 26,28 1.0 11.94 15.92 3.0 3.4 500 400 2.5 12.6 16.80 3.7 2 100 80 600 500 k kHz kHz Vp-p % s s s s (c) 2002 Consumer Microcircuits Limited 21 D/641A/5 Dual SPM/Security Detector/Generator CMX641A 1.7.1.3 Notes: 1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. Operating Characteristics (continued) 12. 13. 14. 15. 16. 17. 18. 19. 20. 21. 22. 23. 24. 25. 26. 27. 28. 29. At 5.0V. Not including any current drawn from the pins by external circuitry. At 3.0V. Not including any current drawn from the pins by external circuitry. Logic pins with no internal pullup or pulldown resistors; CHIP SELECTN, SERIAL DATA, SERIAL CLOCK, OP ENABLEN, OP SELECT and CLOCK IN pins. Logic pins with an internal pullup or pulldown resistor; PRESET LEVEL/TONE ASK, SYSTEM SELECT/TX TONE SELECT, ENHANCED FEATURES. Tone Follower or Packet Mode enabled. Tristate selected. Time taken to change between any two of the operational modes: Tone follower, Packet or Tristrate, and with a maximum capacitive load of 30pF on an output. With adherence to Signal to Voice and Signal to Noise specifications. 12kHz system. 16kHz system The time delay after a valid serial data load (or after device powerup, change of bandwidth setting or change in input signal conditions), before the condition of the outputs can be guaranteed correct. With `Will Detect' bandwidth set to 1.5%, Fixed Bandwidth Operating State or Enhanced Features Operating State. With `Will Detect' bandwidth set to 3.0%, Enhanced Features Operating State only. With `Will Detect' bandwidth set to 5.0%, Enhanced Features Operating State only. With `Will Detect' bandwidth set to 7.5%, Enhanced Features Operating State only. With the input amplifier gain at 0dB and the Bandpass filter gain set to 0dB (Table 2); subtract 1dB from this specification for each single dB of Bandpass filter gain programmed. Alternatively, with the input components as recommended in Figure 2, the sensitivity is as defined in Table 2. In Fixed Bandwidth Operating State, Controlled Sensitivity mode; or in Enhanced Features Operating State. In Fixed Bandwidth Operating State, Preset Sensitivity mode. With input amplifier gain setting 0dB via external components and measured at amplifier output. Signal sensitivity is proportional to VDD. For immunity to false responses and/or deresponses. Common mode SPM and balanced voice signal. With SPM and voice signal balanced; to avoid false deresponses due to saturation, the peak to peak voice + noise level at the output of the input amplifier should be no greater than the dynamic range of the device. For this reason, the signal to voice figure at the Amp output will vary with the sensitivity setting. The lowest signal to voice figure occurs at the highest sensitivity setting (Table 2, 27dB). Maximum voice frequencies = 3.4kHz. Output tone = 12kHz selected. Output tone = 16kHz selected. The time between a logic `1-0' transition at TONE ASK input and the tone at TONE OP reaching 10% of its full value or between a `0-1' transition at TONE ASK input and the tone falling to 90% of its full value. The time for the tone at TONE OP to rise from 10% to 90% or to fall from 90% to 10% of its full value. Tx circuit enabled in Enhanced Features Operating State. (c) 2002 Consumer Microcircuits Limited 22 D/641A/5 Dual SPM/Security Detector/Generator CMX641A Figure 7 Data Load Timing for the Fixed Bandwidth Operating State, Controlled Sensitivity Mode Figure 8 Data Load Timing for Enhanced Features Operating State tPWH tPWL tCYC tCSE tDH tDS tCSH Parameter Serial Clock `High' Pulse Width Serial Clock `Low' Pulse Width Serial Clock Period Chip Select `Low' to Clock `High' Edge Data Hold Time Data Setup Time Chip Select `High' from: Clock `High' Edge Clock `High' Edge Min. 250 250 600 450 50.0 250 50.0 - Typ. - Max. 1 Units ns ns ns ns ns ns ns Serial clock period (c) 2002 Consumer Microcircuits Limited 23 D/641A/5 Dual SPM/Security Detector/Generator CMX641A 1.7.2 Packaging Figure 9 D2 Mechanical Outline: Order as part no. CMX641AD2 Figure 10 P4 Mechanical Outline: Order as part no. CMX641AP4 (c) 2002 Consumer Microcircuits Limited 24 D/641A/5 Dual SPM/Security Detector/Generator CMX641A Handling precautions: This product includes input protection, however, precautions should be taken to prevent device damage from electro-static discharge. CML does not assume any responsibility for the use of any circuitry described. No IPR or circuit patent licences are implied. CML reserves the right at any time without notice to change the said circuitry and this product specification. CML has a policy of testing every product shipped using calibrated test equipment to ensure compliance with this product specification. Specific testing of all circuit parameters is not necessarily performed. Oval Park - LANGFORD MALDON - ESSEX CM9 6WG - ENGLAND Telephone: +44 (0)1621 875500 Telefax: +44 (0)1621 875600 e-mail: sales@cmlmicro.co.uk http://www.cmlmicro.co.uk CML Microcircuits COMMUNICATION SEMICONDUCTORS CML Product Data In the process of creating a more global image, the three standard product semiconductor companies of CML Microsystems Plc (Consumer Microcircuits Limited (UK), MX-COM, Inc (USA) and CML Microcircuits (Singapore) Pte Ltd) have undergone name changes and, whilst maintaining their separate new names (CML Microcircuits (UK) Ltd, CML Microcircuits (USA) Inc and CML Microcircuits (Singapore) Pte Ltd), now operate under the single title CML Microcircuits. These companies are all 100% owned operating companies of the CML Microsystems Plc Group and these changes are purely changes of name and do not change any underlying legal entities and hence will have no effect on any agreements or contacts currently in force. CML Microcircuits Product Prefix Codes Until the latter part of 1996, the differentiator between products manufactured and sold from MXCOM, Inc. and Consumer Microcircuits Limited were denoted by the prefixes MX and FX respectively. These products use the same silicon etc. and today still carry the same prefixes. In the latter part of 1996, both companies adopted the common prefix: CMX. This notification is relevant product information to which it is attached. Company contact information is as below: CML Microcircuits (UK)Ltd COMMUNICATION SEMICONDUCTORS CML Microcircuits (USA) Inc. COMMUNICATION SEMICONDUCTORS CML Microcircuits (Singapore)PteLtd COMMUNICATION SEMICONDUCTORS Oval Park, Langford, Maldon, Essex, CM9 6WG, England Tel: +44 (0)1621 875500 Fax: +44 (0)1621 875600 uk.sales@cmlmicro.com www.cmlmicro.com 4800 Bethania Station Road, Winston-Salem, NC 27105, USA Tel: +1 336 744 5050, 0800 638 5577 Fax: +1 336 744 5054 us.sales@cmlmicro.com www.cmlmicro.com No 2 Kallang Pudding Road, 09-05/ 06 Mactech Industrial Building, Singapore 349307 Tel: +65 7450426 Fax: +65 7452917 sg.sales@cmlmicro.com www.cmlmicro.com D/CML (D)/1 February 2002 |
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