AKM AK2500

ASAHI KASEI
[AK2500B]
AK2500B
DS3/STS-1 Analog Line Receiver
GENERAL DESCRIPTION
FEATURE
The AK2500B is a DSP based line receiver. It
provides the analog receive line interface
functions for a 44.736 MHz DS3 or 51.84 MHz
STS-1 interface. The device operates from a
single +3.3 Volt supply and is transparent to the
framing format.
-
“Robust” DSP based line receiver
-
AK2500B Provides Complete Analog Line
Receiver for DS3 and STS-1 Applications
-
Provides Line Equalization, and Clock and Data
Recovery Functions
APPLICATIONS
PACKAGE
-
24 pin SOP
-
Interfacing network transmission equipment
such as SONET multiplexor and M13 to a DSX3 cross connect.
-
Interfacing customer premises equipment to a
line.
BLOCK DIAGRAM
RLOL
TREF
BREF
IREF
EXCLK
CLOCK
RCLK
RECOVERY
RPDATA
DATA
GAIN and LINE
RNDATA
RECOVERY
EQUALIZATION
RIN
VDDA
VSSA
LOS
VDDD
LOGIC
VSSD
VDDC
VSSC
LOSTHR
MS0005-E-00
RLOS
MODE2
-1-
MODE1
RESET
1999/12
ASAHI KASEI
[AK2500B]
PIN LOCATION
24 PIN SOP Package
IREF
1
24
MODE2
2
23
MODE1
RLOL
3
22
VSSA
RIN
4
21
VSSA
VDDA
5
20
VSSC
VDDA
6
19
RPDATA
RESET
7
18
RNDATA
BREF
8
17
RCLK
TREF
9
16
VDDC
VSSA
10
15
VDDA
VSSD
11
14
VDDD
RLOS
12
13
EXCLK
LOSTHR
MS0005-E-00
AK2500B
-2-
1999/12
ASAHI KASEI
[AK2500B]
PIN CONDITION
No.
Maximum
AC load
Minimum
DC load
Status on
Reset
Pin Name
I/O
Pin Type
1
IREF
O
Analog
2
LOSTHR
I
Analog
3
RLOL
O
CMOS
4
RIN
I
Analog
Note 2
5
VDDA
-
6
VDDA
-
7
RESET
I
CMOS
Note 3
8
BREF
O
Analog
9
TREF
O
Analog
10
VSSA
-
11
VSSD
-
12
RLOS
O
CMOS
13
EXCLK
I
CMOS
14
VDDD
-
15
VDDA
-
16
VDDC
-
17
RCLK
O
18
RNDATA
19
Remarks
Note 1
15pF
“H”
15pF
“H”
CMOS
15pF
“L”
O
CMOS
15pF
“L”
RPDATA
O
CMOS
15pF
“L”
20
VSSC
-
21
VSSA
-
22
VSSA
-
23
MODE1
I
Analog
24
MODE2
I
Analog
Note:
1)External resister 4.9 kohm is connected between IREF and VSS.
2)Input impedance of RIN is more than 5kohm.
3)Pulled up to VDD with internal register. (typical 50k ohm)
MS0005-E-00
-3-
1999/12
ASAHI KASEI
[AK2500B]
PIN DESCRIPTION
No.
Pin Name
I/O
1
IREF
O
2
LOSTHR
I
3
RLOL
O
4
RIN
I
5
VDDA
-
6
VDDA
-
7
RESET
I
8
BREF
O
9
TREF
O
10
VSSA
-
11
VSSD
-
12
RLOS
O
13
EXCLK
I
14
VDDD
-
Ground for the digital part. 0 volts.
Receive Loss-of-Signal.
This pin is set high on loss of the incoming signal at RIN.
External Reference Clock.
A valid DS3 or STS-1 clock must be provided at this input. The duty cycle of
EXCLK, referenced to VDD/2 levels, must be 40% - 60%. The EXCLK
frequency determines the operating frequency of the device.
Power Supply for the digital part. +3.3 volts
15
VDDA
-
Power Supply for the analog part. +3.3 volts.
16
VDDC
-
Power Supply for the output buffer. +3.3 volts.
17
RCLK
O
Recovered Clock.
18
RNDATA
O
Receive Negative Data.
19
RPDATA
O
Receive Positive Data.
20
VSSC
-
Ground for the output buffer. 0 volts.
21
VSSA
-
22
VSSA
-
23
MODE1
I
24
MODE2
I
MS0005-E-00
Function
Current reference output determined by the external resister.
External resistance 4.9 kohm(+/-1%) should be connected between this pin and
VSSA.
Loss of Signal Threshold Control
The voltage forced on this pin controls the input loss-of-signal threshold. Three
settings are provided by forcing GND, VDD/2, or VDD at LOSTHR (see Table
6).
Receive PLL Loss-of-Lock
Active High alarm. If the recovered clock frequency is larger than approximately
0.5% of EXCLK, RLOL alarm goes High.
Receive Input
Unbalanced analog receive input. The B3ZS receive signal is input to this pins.
Data and clock are recovered and output on RPDATA, RNDATA and RCLK.
Power Supply for the analog part. +3.3 volts.
Active low RESET. Pulled up to VDD with internal resister.
Bottom voltage reference level output.
An external capacitor (0.1uF±20%) should be connected between this pin and
VSSA.
Top voltage reference level output.
An external capacitor (0.1uF±20%) should be connected between this pin and
VSSA.
Ground for the analog part. 0 volts.
Ground for the analog part. 0 volts.
Mode Control.
Equalizer enable/bypass mode, Test mode are selectable as shown in
Table 4.
-4-
1999/12
ASAHI KASEI
[AK2500B]
FUNCTIONAL DESCRIPTION
The AK2500B provides the basic receiver functions of a high-speed line card as shown in Fig.7.
The receiver extracts data and clock from a B3ZS coded signal and outputs clock and synchronized data.
Signal Requirements
Pulse characteristics are specified at the DSX-3.
Table 1. DS3 Interface Specification
Parameter
Specification
Line Rate
44.736Mbps±20ppm
Line Code
B3ZS
Test Load
75Ω±5%
Standards
GR-499-CORE , ANSI T1-102 , T1.404
Table 2. STS-1 Interface Specification
Parameter
Specification
Line Rate
51.840Mbps±20ppm
Line Code
B3ZS
Test Load
75Ω±5%
Standards
GR-253-CORE , ANSI T1-102
Equalization
The incoming data may have the loss of cable and/or flat. Cable type and length from the cross-connect are
specified as shown in Table 3. Equalizer compensates appropriately for a nominal DSX-3/STS-1 pulse as
attenuated by 0 - 450 feet of 728A cable.
Table 3. DS3/STS-1 Cable Specification
Parameter
Specification
Cable Type
Type 728A coaxial cable (or equivalent)
Cable Length
0 – 450 feet (from DSX-3 point)
MS0005-E-00
-5-
1999/12
ASAHI KASEI
[AK2500B]
Equalizer Bypass
If the incoming signal is attenuated by flat loss only (zero cable loss), the internal equalizer should be bypassed
with MODE1=1, MODE2=1. (See Table 4) The level of the incoming signal should satisfy the RIN input range
(50mVpk - 1000mVpk for DS3/STS-1).
Table 4. Mode Control
MODE2
(pin24)
MODE1
(pin23)
0
0
OPEN
1
1
Function
Equalizer Enable
TEST MODE (Factory use only)
Equalizer Bypass
DSX-3
(1)Cable loss 0 - 450feet
+ Flat loss
Cable
Flat Loss
0 - 450feet
0 - 6dB
AK2500B
MODE2
MODE1
0
0
Equalizer enable
Flat Loss
(2)Flat loss only
Transmitter
Monitoring
circuit
AK2500B
MODE2
MODE1
1
1
Equalizer bypass
Fig. 1 AK2500B Application
Clock Acquisition
If a valid input signal is assumed to be already present at the analog input, the maximum time between the
application of device power and error-free operation is typically 20 ms.
Table 5. PLL Lock Acquisition Time
(TA = Tmin to Tmax; V+ = 3.3V±0.3V; GND = 0V)
Power up
Input data restore
MS0005-E-00
Conditions
Power : Off -> On
Input data : Valid
Power : On
Input data : Loss -> Valid
-6-
min
typ
Max
20
1.0
Units
ms
5.0
ms
1999/12
ASAHI KASEI
[AK2500B]
Output Jitter
Typical output jitter characteristics is shown in the table of ANALOG SPECIFICATIONS (page.11).
Jitter Transfer
Jitter transfer characteristics is shown in the table of ANALOG SPECIFICATIONS (page.11).
Jitter Tolerance
Compliance with GR-499-CORE, GR-253-CORE, ITU-T G.752, G.824
Typical jitter tolerance characteristics is shown in the table of ANALOG SPECIFICATIONS (page.11).
Loss-of-Lock Detection
If the recovered clock frequency is larger than approximately 0.5% of EXCLK, RLOL alarm goes High.
External Reference Clock
An external reference clock EXCLK is used to set the frequency of the PLL. The frequency of EXCLK should be
within the ideal clock±100ppm.
Reset
AK2500B/01B goes into RESET status if RESET input is low.
Output pins status is as follows during the low input on RESET .
RLOS, RLOL
: High
RPDATA, RNDATA, RCLK : Low
MS0005-E-00
-7-
1999/12
ASAHI KASEI
[AK2500B]
Loss of Signal
This device detects the loss of signal by analog and digital methods. RLOS goes high if either the analog or digital
loss has detected.
Analog Loss of Signal(ALOS)
Analog loss detector operates as follows.
- Analog loss detector monitors the peak level of the incoming signal.
- If the peak level falls below Alarm set threshold as shown in Table 6, output pins status is as follows.
RLOS : High
RPDATA: Low
RNDATA: Low
RCLK : Recovered from EXCLK
Table 6. Analog Loss-of-Signal thresholds
LOSTHR
Clear Alarm Level
Set Alarm Level
Voltage
Min. Upper
Threshold
Max. Upper
Threshold
Min. Lower
Threshold
Max. Lower
Threshold
Units
GND
71
125
59
105
mV
VDD/2
56
99
47
83
mV
VDD
45
79
37
66
mV
Notes:
- Set Alarm Level is 0.5dB lower than Clear Alarm Level
- Measured with PN20 pattern, 450ft cable loss, flat loss
MS0005-E-00
-8-
1999/12
ASAHI KASEI
[AK2500B]
Digital Loss of Signal(DLOS)
Digital loss detector operates as follows.
- A digital loss detector monitors consecutive 0s and 1s density in recovered data.
- RLOS is set high if 175±5 consecutive 0s is detected.
- RPDATA,RNDATA are set low if ALOS is detected.
- RLOS is set low if 33% 1s density (58 1s in 175 consecutive bits) and no consecutive 100 bits of 0s are
detected.
Normal Operation
RCLK
: Recovered from RIN data
RPDATA : Recovered data
RNDATA : Recovered data
RLOS
: Low
175 +/- 5 bits of consecutive
0s in the incoming data
DLOS
RCLK
175bits of the incoming data
includes the following data.
1) 58bits of 1s (33% 1s density)
2) No 100bits of consecutive 0s
: Recovered from RIN data
RPDATA : Recovered data
RNDATA : Recovered data
RLOS
Peak level of
the incoming
data
: High
Set Alarm
Threshold
<
Level
Peak level of
the incoming
data
Clear Alarm
Threshold
>
Level
ALOS
RCLK
: Recovered from EXCLK
RPDATA : Low
RNDATA : Low
RLOS
: High
Fig. 2 Loss of Signal state diagram
MS0005-E-00
-9-
1999/12
ASAHI KASEI
[AK2500B]
ABSOLUTE MAXIMUM RATINGS
Parameter
Symbol
Min
Max
Units
DC Supply (referenced to GND) (Note 1)
V+
-0.3
4.6
V
Input Voltage, Any Pin
Vin
GND-0.3
(V+)+0.3
V
Input Current, Any Pin (Note 2)
Iin
-
10
mA
Ambient Operating Temperature
TA
-40
85
°C
Storage Temperature
tstg
-65
150
°C
Power Dissipation
PD
-
1
W
WARNING: Operation at or beyond these limits may result in permanent damage to the device.
operation is not guaranteed at these extremes.
Note;
1.GND=VSSA=VSSC=VSSD=0V
2.Transient currents of up to 100 mA will not cause SCR latch up.
Normal
RECOMMENDED OPERATING CONDITIONS
Parameter
DC Supply
(referenced to GND)
Ambient Operating
Temperature
Symbol
Condition
Min
Typ
Max
Units
V+
3.0
3.3
3.6
V
TA
-40
25
85
°C
-
95
100
105
110
mA
mA
44.736
- 100ppm
44.736
44.736
+ 100ppm
MHz
51.84
- 100ppm
51.84
51.84
+ 100ppm
MHz
Supply Current:
DS3
STS-1
IS
PN20
PN20
EXCLK Frequency
DS3
STS-1
MS0005-E-00
- 10 -
1999/12
ASAHI KASEI
[AK2500B]
ANALOG SPECIFICATIONS
(TA = Tmin to Tmax; V+ = 3.3V±0.3V; GND = 0V)
Parameter
Condition
Jitter Transfer
3dB Bandwidth
with repetitive 100 pattern (Note 4) Peaking
Min
Typ
Max
Units
-
205
-
kHz
-
0.05
0.1
dB
Jitter Tolerance
5kHz
10kHz
60kHz
300kHz
1MHz
(Including cable loss)
(Note 4, 5)
18
8
1.5
0.4
0.3
Signal Noise Immunity (Note 6)
UIpp
UIpp
UIpp
UIpp
UIpp
-
11
-
dB
-
1.4
-
nsp-p
-
1.8
-
nsp-p
Output Clock Duty Cycle (Note4)
45
-
55
%
Receiver Input Range
50
-
1000
mVpk
DLOS detection
170
175
180
bits
8
bits
Output Jitter with Jitter-Free Input
(Note4)
All one's pattern
Repetitive 1000
pattern
RIN to RPDATA Delay Time
Note; 4. Measured with repetitive input at nominal DSX-3 level with (V+)=3.3V, TA=25°C
5. Typical performance is shown in Fig. 3.
6. Measured with sinusoidal noise, peak amplitude of noise is 11dB down from peak amplitude of
signal. The noise frequency is 22MHz±22kHz(DS3), 26MHz±26kHz(STS-1).
100
3.2k, 14UIpp
G.752
GR-499 Category II
Jitter Amplitude [UIpp]
10
AK2500B
Typical performance
GR-499 Category I
1
300k, 0.3UIpp
0.1
0.05UIpp
0.01
0.01
0.1
1
10
100
1000
10000
Jitter Frequency [kHz]
Fig. 3 Jitter Tolerance(STS-1)
MS0005-E-00
- 11 -
1999/12
ASAHI KASEI
[AK2500B]
DS3 SWITCHING SPECIFICATIONS
(TA = Tmin to Tmax; V+ = 3.3V±0.3V; GND = 0V; Input: Logic 0 = 0V, Logic 1 = V+ )
Parameter
RCLK Pulse Width
(Note 10, 11)
EXCLK Duty Cycle (EXCLK Min Rise/Fall time : 5ns)
Symbol
Min
Typ
Max
Units
tpwh
tpwl
10.1
10.1
11.177
11.177
12.2
12.2
ns
ns
tpwh1
40
-
60
%
Rise Time, RCLK
(Note 11)
tr
-
-
3.5
ns
Fall Time, RCLK
(Note 11)
tf
-
-
3.5
ns
Delay time from RCLK rising to RDATA(Note 12)
tdcrd
0
-
3.5
ns
Setup time from RCLK falling to RDATA(Note 12)
tscrd
5.0
-
-
ns
Hold time from RCLK falling to RDATA(Note 12)
thcrd
8.4
-
-
ns
STS-1 SWITCHING SPECIFICATIONS
(TA = Tmin to Tmax; V+ = 3.3V±0.3V; GND = 0V; Input: Logic 0 = 0V, Logic 1 = V+ )
Parameter
Symbol
Min
Typ
Max
RCLK Pulse Width
tpwh
tpwl
8.7
8.7
9.645
9.645
10.6
10.6
ns
ns
tpwh1/tpw
40
-
60
%
(Note 11, 13)
EXCLK Duty Cycle(EXCLK Min Rise/Fall time : 5ns)
Units
Rise Time, RCLK
(Note 11)
tr
-
-
3.5
ns
Fall Time, RCLK
(Note 11)
tf
-
-
3.5
ns
Delay time from RCLK rising to RDATA(Note 12)
tdcrd
0
-
3.5
ns
Setup time from RCLK falling to RDATA(Note 12)
tscrd
5.0
-
-
ns
Hold time from RCLK falling to RDATA(Note 12)
thcrd
7.0
ns
Note;
10.
Assumes PLL is locked to 44.736 MHz signal.
11.
The sum of the pulse widths must always meet the frequency specifications.
12.
At max load of 10 pF.
13.
Assumes PLL is locked to 51.84 MHz signal.
DIGITAL CHARACTERISTICS
(TA = Tmin to Tmax; V+ = 3.3V±0.3V; GND = 0V)
Parameter
Symbol
Min
Typ
Max
Units
High-Level Input Voltage
(Note 14)
VIH
(V+) x 0.7
-
(V+)
V
Low-Level Input Voltage
(Note 14)
VIL
GND
-
0.5
V
High-Level Output Voltage(Note 15,16)
IOUT=-40uA
VOH
(V+) x 0.8
-
(V+)
V
Low-Level Output Voltage
IOUT=1.6mA (Note 15), 0.4mA (Note 16)
VOL
GND
-
0.4
V
±10
uA
Input Leakage Current
(Note 17)
Note; 14. Pins RESET
15. Pins RCLK, RPDATA, RNDATA
MS0005-E-00
16. Pins RLOS, RLOL
17. Except RESET
- 12 -
1999/12
ASAHI KASEI
[AK2500B]
tr
tf
90%
90%
10%
RCLK
10%
Fig. 4 Signal Rise and Fall Characteristics
t pwh
RCLK
t pwl
t dcrd
RPDATA
RNDATA
t scrd
t hcrd
Fig. 5 Recovered Clock and Data Switching Characteristics
t pwh1
VDD/2
EXCLK
t pw
Fig. 6 EXCLK Duty Cycle Requirements
MS0005-E-00
- 13 -
1999/12
ASAHI KASEI
[AK2500B]
Application Circuit Example
17
FRAMER
B3ZS
CODER/
DECODER
19
18
RCLK
0.01uF
RIN
RPDATA
COAX
4
RNDATA
75ohm
AK2500B
CLOCK
SOURCE
13
EXCLK
VDDC
VDDA
CONTROL
LOGIC
3
RLOL
12
RLOS
VDDD
2
LOSTHR
24
MODE2
23
MODE1
7
VSSD
VSSA
RESET
VSSC
BREF
TREF
8
9
0.1uF
Fig. 7
16
3.3V
5, 6, 15
14
0.1uF
11
0.1uF
0.1uF
10, 21, 22
20
IREF
1
0.1uF
4.9kohm
Application circuit example
Board Layout Consideratons
The recommended power supply de-coupling circuit is illustrated in Figure 7. Good quality high-frequency, low
lead-inductance capacitors should be used. If the performance of Jitter Tolerance or S/X is not good, please try to
use smaller de-coupling capacitors such as 0.01uF. These performances are affected by the power supply noise
which depends on the customer’s board circuit and layout. All capacitors should be as close to the device as
possible.
MS0005-E-00
- 14 -
1999/12
ASAHI KASEI
[AK2500B]
Marking
(1)Pin #1 indication
(2)Date Code: 7digits XXXXYZZ
(3)Marketing Code: AK2500B
(4)Country of Origin: JAPAN
(5)Asahi Kasei Logo
AKM
AK2500B
XXXXYZZ
JAPAN
MS0005-E-00
- 15 -
1999/12
ASAHI KASEI
[AK2500B]
Outline Dimensions
MS0005-E-00
- 16 -
1999/12
ASAHI KASEI
[AK2500B]
IMPORTANT NOTICE
• These products and their specifications are subject to change without notice. Before considering any use or
application, consult the Asahi Kasei Microsystems Co., Ltd. (AKM) sales office or authorized distributor concerning
their current status.
• AKM assumes no liability for infringement of any patent, intellectual property, or other right in the application or use
of any information contained herein.
• Any export of these products, or devices or systems containing them, may require an export license or other official
approval under the law and regulations of the country of export pertaining to customs and tariffs, currency exchange,
or strategic materials.
• AKM products are neither intended nor authorized for use as critical components in any safety, life support, or other
hazard related device or system, and AKM assumes no responsibility relating to any such use, except with the express
written consent of the Representative Director of AKM. As used here:
(a) A hazard related device or system is one designed or intended for life support or maintenance of safety or for
applications in medicine, aerospace, nuclear energy, or other fields, in which its failure to function or perform may
reasonably be expected to result in loss of life or in significant injury or damage to person or property.
(b) A critical component is one whose failure to function or perform may reasonably be expected to result, whether
directly or indirectly, in the loss of the safety or effectiveness of the device or system containing it, and which
must therefore meet very high standards of performance and reliability.
• It is the responsibility of the buyer or distributor of an AKM product who distributes, disposes of, or otherwise places
the product with a third party to notify that party in advance of the above content and conditions, and the buyer or
distributor agrees to assume any and all responsibility and liability for and hold AKM harmless from any and all
claims arising from the use of said product in the absence of such notification.
MS0005-E-00
- 17 -
1999/12