Microcyber HT1200M User manual
MICROCYBER
HT1200M User Manual
HART Modem ASIC
(According to HCF_SPEC-54)
Version: 1.1
Date: 07.12
http://www.microcyber-fieldbus.com
Revision History
Version
Release Date
Detail of Changes
1.1
07.12.22
First release
http://www.microcyber-fieldbus.com
List of Contents
General Description.................................................................................................................... 5
Features....................................................................................................................................... 5
Typical Application..................................................................................................................... 6
Pin Assignment............................................................................................................................6
Pin Description............................................................................................................................8
Function Description.................................................................................................................10
Package Information................................................................................................................. 15
Characteristics........................................................................................................................... 17
List of Tables
Table 1 HT1200M Pin Descriptions........................................................................................ 7
List of Figures
Figure 1 HT1200M Hart Modem Typical Application............................................................ 6
Figure 2 (a) 28Pin PLCC Pinout Package (b) 32Pin LQFP Pinout Package....................... 6
Figure 3 Reset Timing..............................................................................................................8
Figure 4 HT1200M Block Diagram.......................................................................................10
Figure 5 Demodulator Signal Timing.................................................................................... 11
Figure 6 OTXA Waveform (1200 Hz)................................................................................... 11
Figure 7 OTXA Waveform (2200 Hz)................................................................................... 12
Figure 8 Receive Schematic...................................................................................................13
Figure 9 (a) Crystal Oscillator (b) Oscillator......................................................................14
Figure 10 LQFP32..................................................................................................................15
Figure 11 PLCC28................................................................................................................. 16
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General Description
The HT1200M is a single-chip, CMOS modem for use in Highway Addressable
Remote Transducer (HART) field instruments and masters. The modem and a few
external passive components provide all of the functions needed to satisfy HART
physical layer requirements including modulation, demodulation, receive filtering,
carrier detect and transmit-signal shaping. The HT1200M is pin-compatible with the
SYM20C15. See the Pin Description and Functional Description sections for details
on pin compatibility with the SYM20C15.
The HT1200M uses Phase Continuous Frequency Shift Keying (FSK) at 1200 bits
per second. To conserve power the receive circuits are disabled during transmit
operations and vice versa. This provides the half-duplex operation used in HART
communications.
Features
Can be used in designs presently using the SYM20C15 or equivalent type chip
Single-chip, half-duplex 1200 bits per second FSK modem
Bell 202 shift frequencies of 1200 Hz and 2200 Hz
3.3V-5.0V power supply
Transmit-signal wave shaping
Receive band-pass filter
Low power: optimal for intrinsically safe applications CMOS compatible
Internal oscillator requires 460.8kHz crystal or ceramic resonator
Meets HART physical layer requirements
Industrial temperature range of -40 °C to +85 °C
Available in a 28-pin PLCC and 32-pin LQFP packages
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Typical Application
.
Figure 1 HT1200M Hart Modem Typical Application
Pin Assignment
(a) (b)
Figure 2 (a) 28Pin PLCC Pinout Package (b) 32Pin LQFP Pinout Package
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Table 1 HT1200M Pin Descriptions
Signal
Type
PLCC
LQFP
Description
TEST1
input
1
28
Connect to Vss.
TEST2
—
2
29
No connect.
TEST3
—
3
31
No connect.
TEST4
—
4
32
No connect.
TEST5
input
5
1
Connect to Vss.
INRESET
input
6
2
Reset all digital logic when low
TEST7
input
7
3
Connect to Vss.
TEST8
input
8
4
Connect to Vss.
TEST9
input
9
5
Connect to Vss.
OTXA
output
10
7
Modulated output transmit and transmit
signal to 4-20mA loop. FSK modulated
HART interface circuit.
IAREF
input
11
8
Analog reference voltage.
ICDREF
input
12
9
Carrier detect reference voltage.
OCBIAS
output
13
10
Comparator bias current.
TEST10
input
14
11
Connect to Vss.
VDDA
power
15
13
Analog supply voltage.
IRXA
input
16
14
FSK modulated HART receive signal
from 4-20mA loop interface circuit
ORXAF
output
17
15
Analog receiver filter input.
IRXAC
input
18
16
Analog receive comparator input.
OXTL
output
19
17
Crystal oscillator output.
IXTL
input
20
18
Crystal oscillator input.
VSS
ground
21
6,20
Ground.
VDD
power
22
21,30
Digital supply voltage.
INRTS
input
23
22
Request to send.
ITXD
input
24
23
Input transmit data. Transmitted HART
data stream from UART.
TEST11
—
25
24
No connect.
ORXD
output
26
25
Received demodulated HART data to
UART.
OCD
output
27
26
Carrier detect output.
TEST12
—
28
27
No connect.
VSSA
ground
—
12,19
Analog ground
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Pin Description
IAREF: Analog Reference Voltage
This analog input sets the do operating point of the operational amplifiers and
comparators and is usually selected to split the do potential between VDD and Vss.
IAREF in DC Characteristics refer to Electrical Characteristics.
ICDREF: Carrier Detect Reference Voltage
This analog input controls at which level the carrier detect (OCD) becomes active.
This is determined by the do voltage difference between ICDREF and IAREF.
Selecting ICDREF-IAREF equal to 0.08 VDC will set the carrier detect to a nominal
100 mVp-p.
INRESET: Reset Digital Logic
When at logic low (VSS) this input holds all the digital logic in Reset. During
normal operation INRESET should be at VDD. INRESET should be held low for a
minimum of 10 ns after VDD=2.5 V as shown in Figure 3.
INRTS: Request To Send
Figure 3 Reset Timing
This active-low input selects the operation of the modulator. OTXA is enabled when
this signal is low. This signal must be held high during power-up.
IRXA: Analog Receive Input
This input accepts the 1200/2200 Hz signals from the external filter.
IRXAC: Analog Receive Comparator Input
This is the positive input of the carrier detect comparator and the receiver filter
comparator.
ITXD: Digital Transmit Input(CMOS)
This input to the modulator accepts digital data in NRZ form. When ITXD is low,
the modulator output frequency is 2200 Hz. When ITXD is high, the modulator
output frequency is 1200 Hz.
IXTL: Oscillator Input
This input to the internal oscillator must be connected to a parallel mode 460.8 kHz
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ceramic resonator when using the internal oscillator or grounded when using an
external 460.8 kHz clock signal.
OCBIAS: Comparator Bias Current
The current through this output controls the operating parameters of the internal
operational amplifiers and comparators. For normal operation, OCBIAS current is
set to 2.5 uA.
OCD: Carrier Detect Output
This output goes high when a valid input is recognized on IRXA. If the received
signal is greater than the threshold specified on ICDREF for four cycles of the IRXA
signal, the valid input is recognized.
ORXAF: Analog Receive Filter Output
This signal is the square wave output of the receiver high-pass filter.
ORCD: Digital Receive Output (CMOS)
This signal outputs the digital receive data. When the received signal (IRXA) is 1200
Hz, ORXD outputs logic high. When the received signal (IRXA) is 2200 Hz, ORXD
outputs logic low. ORXD is qualified internally with OCD and is logic high when
OCD is low.
OTXA: Analog Transmit Output
This output provides the trapezoidal signal controlled by ITXD. When ITXD is low,
the output frequency is 2200 Hz. When ITXD is high, the output frequency is 1200
Hz. This output is active when INRTS is low and 0.5 VDD when INRTS is high.
OXTL: Oscillator Output
This output from the internal oscillator must be connected to an external 460.8 kHz
clock signal or to a parallel mode 460.8 kHz ceramic resonator when using the
internal oscillator.
TEST(12: 1): Test Pin
These are test pins. For normal operation, tie these signals as per Table1.
VDD: Digital Power
This is the power for the digital modem circuitry.
VDDA: Analog Supply Voltage
This is the power for the analog modem circuitry.
VSS: Ground
This is the analog and digital ground.
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VSSA: Analog Ground
Analog Ground
Function Description
The HT1200M is a functional equivalent of the SYM20C15 HART Modem. It
contains a transmit data modulator and signal shaper, carrier detect circuitry, analog
receiver and demodulator circuitry and an oscillator, as shown in Figure 4.
The internal HART modulates the transmit-signal and demodulates the receive signal.
The transmit-signal shaper enables the HT1200M to transmit a HART compliant
signal. The carrier is detected by comparing the receiver filter output with the
difference between two external voltage references. The analog receive circuitry band-
pass filters the received signal for input to the modem and the carrier detect circuitry.
The oscillator provides the modem with a stable time base using either a simple
external resonator or an external clock source.
Figure 4 HT1200M Block Diagram
HT1200M LOGIC
The modem consists of a modulator and demodulator. The modem uses shift
frequencies of nominally 1200 Hz (for a 1)and 2200 Hz (for a 0). The bit rate is1200
bits/second.
Modulator
The modulator accepts digital data in NRZ form at the ITXD input and generates the
FSK modulated signal at the OTXA output. INRTS must be a logic low for the
modulator to be active.
Demodulator
The demodulator accepts an FSK signal at the IRXA input and reproduces the original
modulating signal at the ORXD output. The nominal bit rate is 1200 bits per second.
Figure 5 illustrates the demodulation process.
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Figure 5 Demodulator Signal Timing
The output of the demodulator is qualified with the carrier detect signal (OCD),
therefore, only IRXA signals large enough to be detected (100 mVp-p typically) by
the carrier detect circuit produce received serial data at ORXD. Maximum
demodulator jitter is 12 percent of one bit given input frequencies within HART
specifications, a clock frequency of 460.8 kHz (1.0 percent) and zero input (IRXA)
asymmetry.
TRANSMIT-SIGNAL SHAPER
The transmit-signal shaper generates a HART compliant FSK modulated signal at
OTXA. Figure 6 and Figure 7 show the transmit-signal forms of the HT1200M.
For IAREF=1.235 VDC, OTXA will have a voltage swing from approximately 0.25
to 0.75 VDC.
Figure 6 OTXA Waveform (1200 Hz)
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Figure 7 OTXA Waveform (2200 Hz)
CARRIER DETECT CIRCUITRY
The Carrier Detect Comparator shown in Figure 8 below generates logic low output if
the IRXAC voltage is below ICDREF. The comparator output is fed into a carrier
detect block. The carrier detect block drives the carrier detect output pin OCD high if
INRTS is high and four consecutive pulses out of the comparator have arrived. OCD
stays high as long as INRTS is high and the next comparator pulse is received in less
than 2.5 ms. Once OCD goes inactive, it takes four consecutive pulses out of the
comparator to assert OCD again. Four consecutive pulses amount to 3.33 ms when the
received signal is 1200 Hz and to 1.82 ms when the received signal is 2200 Hz.
ANALOG RECEIVER CIRCUITRY
Voltage References
The HT1200M requires two voltage references: IAREF and ICDREF. IAREF sets the
do operating point of the internal operational amplifiers and comparators. A 1.235 VDC
reference(Analog Devices AD589) is suitable as IAREF. The level at which OCD
(carrier detect) becomes active is determined by the do voltage difference (ICDREF-
IAREF). Selecting a voltage difference of 0.08 VDC will set the carrier detect to a
nominal 100 mVp-p.
Bias Current Resistor
The HT1200M requires a bias current resistor to be connected between OCBIAS and
Vss. The bias current controls the operating parameters of the internal operational
amplifiers and comparators. The value of the bias current resistor is determined by
the reference voltage IAREF and the following formula:
⎛IAREF ⎞
RBIAS ⎜
⎝
⎟
2.5
A⎠
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The recommended bias current resistor is 500 ohm; when IAREF is equal to 1.235
VDC.
In Figure 8 all external capacitor values have a tolerance of 15 percent and the
resistors have a tolerance of 1 percent, except the 3 ohm; which has a tolerance of 15
percent. External to the HT1200M, the filter exhibits a three-pole, high-pass filter at
624 Hz and a one-pole, low-pass filter at 2500 Hz.
Internally, the HT1200M has a high-pass pole at 35 Hz and a low-pass pole at 90
kHz. The low-pass pole can vary as much as 130 percent. The input impedance of
the entire filter is greater than 150 ohm; at frequencies below 50 kHz.
Figure 8 Receive Schematic
OSCILLATOR
The HT1200M requires a 460.8 kHz clock signal on OXTL. This can be provided by
an external clock or external components may be connected to the HT1200M
internal oscillator.
Internal Oscillator Option
The oscillator cell will function with either a 460.8 kHz crystal or ceramic resonator.
A parallel resonant ceramic resonator can be connected between OXTL and IXTL.
Figure 9 illustrates the crystal option for clock generation using a 460.8 kHz (1
percent tolerance) parallel resonant crystal and two tuning capacitors. The actual
values of the capacitors may depend on the recommendations of the manufacturer of
the resonator. Typically, capacitors in the range of 100 pF to 470pF are used.
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External Clock Option
It may be desirable to use an external 460.8 kHz clock as shown in Figure 10 rather
than the internal oscillator because of the high cost and low availability of ceramic
resonators. In addition, the HT 1200M consumes less current when an external clock
is used. Minimum current consumption occurs with the clock connected to OXTL and
IXTL connected to VSS.
(a) (b)
Figure 9 (a) Crystal Oscillator (b) Oscillator
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Package Information
Figure 10 LQFP32
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Figure 11 PLCC28
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Characteristics
ABSOLUTE MAXIMUMS
Symbol
Parameter
Min.
Max.
Units
TA
Ambient
-40
+85
℃
TS
Storage Temperature
-55
+150
℃
VDD
Supply Voltage
2.7
5.5
V
VIN , VOUT
DC Input, Output
-0.3
VDD+0.3
V
TL
Lead Temperature (soldering)
250
℃
DC CHARACTERISTICS
(VDD = 2.7V to 5.5V, VSS = 0V, TA = -40C to +85C)
Symbol
Parameter
VDD
Min.
Typical
Max.
Units
VIL
Input Voltage, Low
2.7-5.5V
0.3*VDD
V
VIL
INRESET、INRTS
2.7-3.3V
0.9
1.2
1.4
V
VIH
Input Voltage
2.7-5.5V
0.7*VDD
V
VIH
INRESET、INRTS
2.7-3.3V
1.3
1.8
2.3
V
VOL
Output Voltage, Low
(IOL = -1.8mA)
2.7-3.3V
0.4
V
VOH
Output Voltage, High
(IOH = -1.8mA)
2.7-3.3V
VDD-1.0
V
CIN
Input Capacitance
Analog Input
IRXA
Digital Input
2.1
20.8
3.1
pF
IIL/IH
Input Leakage Current
±5
µA
IOLL
Output Leakage Current
±5
µA
IDD
Power Supply Current
(RBIAS=500kΩ,IAREF=1.235V)
3.3
5.0
170
200
µA
IAREF
Analog Reference
3.3
5.0
1.2
1.235
2.5
2.6
V
ICDREF
Carrier Detect Reference
(IAREF=.08V)
1.15
V
OCBIAS
Comparator Bias Current
(RBIAS=500kΩ, IAREF=1.235V)
2.5
µA
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AC CHARACTERISTICS
(VDD = 2.7V to 5.5V, VSS = 0V, TA = -40C to +85C)
Pin
Name
Description
Min.
Typical
Max.
Units
IRXA
Receive Analog Input
Leakage Current
Frequency-Mark(Logic 1)
Frequency-Space(Logic 0)
1190
2180
1200
2200
+/-150
1210
2220
nA
Hz
Hz
ORXAF
Output of the High-pass Filter
Slew Rate
Gain Bandwidth (GBW)
Voltage Range
150
0.15
0.025
VDD-0.15
V/µs
kHz
V/µs
IRXAC
Carrier Detect & Receive Filter Input
Leakage Current
+/-500
nA
OTXA
Modulator Output
Frequency-Mark(Logic1)
Frequency-Space(Logic0)
Amplitude(IAREF1.235V)
Slop
30
1196.9
2194.3
500
2.84
Hz
Hz
mV p-p
mV/µs
kΩ
Loading(IAREF=1.235V)
ORXD
Receive Digital Output
20
ns
Rise/Fall Time
OCD
Carrier Detect Output
20
ns
Rise/Fall Time
MODEM CHARACTERISTIC
(VDD = 2.7V to 5.5V, VSS = OV, TA = -40 C to +85 C)
Parameter
Min.
Typical
Max.
Units
Demodulater Jitter
Conditions
1.Input frequencies at
1200Hz+/-10Hz,2200Hz+/-20Hz
2.Clock frequency of
460.8kHz+/-0.1%
12
% of 1 bit
3.Input(HLXA) asymmetry,0
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CERAMIC RESONATOR - EXTERNAL CLOCK SPECIFICATIONS
(VDD = 2.7V to 5.5V, VSS = OV, TA = -40 C to +85 C)
Parameter
Min.
Typical
Max.
Units
Resonator
Tolerance
460.8
1%
%
kHz
Frequency
External
Clock Frequency
456.2
460.8
465.4
kHz
Duty Cycle
40
50
60
%
Amplitude
VOH-VOL
V
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YOUR FIELDBUS EXPERT
CONTACT INFORMATION
Address: 17-8 Wensu Street, Hunnan New District, Shenyang,
China
Website: www.microcyber-fieldbus.com
Phone: +86-24-31217278/+86-24-31217280
Fax: +86-24-31217338
Email: fang.siqi@microcyber.cn
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