Datasheet

MPC5200B Data Sheet, Rev. 4
6 Freescale Semiconductor
Input leakage current RTC_XTAL_IN
Vin = 0 or VDD_IO
I
IN
±10 μA D3.15
Input current, pullup resistor PULLUP
VDD_IO
Vin = 0
I
INpu
40 109 μA D3.16
Input current, pullup resistor
— memory I/O buffers
PULLUP_MEM
VDD_IO_MEM
SDR
Vin = 0
I
INpu
41 111 μA D3.17
Input current, pulldown
resistor
PULLDOWN
VDD_IO
Vin = VDD_IO
I
INpd
36 106 μA D3.18
Output high voltage IOH is driver dependent
(2)
VDD_IO, VDD_IO_MEM
SDR
V
OH
2.4 V D3.19
Output high voltage IOH is driver dependent
(2)
VDD_IO_MEM
DDR
V
OHDDR
1.7 V D3.20
Output low voltage IOL is driver dependent
(2)
VDD_IO, VDD_IO_MEM
SDR
V
OL
0.4 V D3.21
Output low voltage IOL is driver dependent
(2)
VDD_IO_MEM
DDR
V
OLDDR
0.4 V D3.22
DC Injection Current Per
Pin
(3)
I
CS
–1.0 1.0 mA D3.23
Capacitance Vin = 0 V, f = 1 MHz C
in
15 pF D3.24
1
Leakage current is measured with output drivers disabled and pull-up/pull-downs inactive.
2
See Table 4 for the typical drive capability of a specific signal pin based on the type of output driver associated with that
pin as listed in Table 52.
3
All injection current is transferred to VDD_IO/VDD_IO_MEM. An external load is required to dissipate this current to
maintain the power supply within the specified voltage range. Total injection current for all digital input-only and all digital
input/output pins must not exceed 10 mA. Exceeding this limit can cause disruption of normal operation.
Table 4. Drive Capability of MPC5200B Output Pins
Driver Type Supply Voltage I
OH
I
OL
Unit SpecID
DRV4 VDD_IO = 3.3 V 4 4 mA D3.25
DRV8 VDD_IO = 3.3 V 8 8 mA D3.26
DRV8_OD VDD_IO = 3.3 V 8 mA D3.27
DRV16_MEM VDD_IO_MEM = 3.3 V 16 16 mA D3.28
DRV16_MEM VDD_IO_MEM = 2.5 V 16 16 mA D3.29
PCI VDD_IO = 3.3 V 16 16 mA D3.30
Table 3. DC Electrical Specifications (continued)
Characteristic Condition Sym Min Max Unit SpecID